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nexedi
linux
Commits
0e52d987
Commit
0e52d987
authored
Jul 31, 2012
by
Russell King
Browse files
Options
Browse Files
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Plain Diff
Merge branches 'dma-omap', 'dma-pl08x' and 'dma-sa11x0' into dmaengine
parents
89269ef1
a068682c
d9444325
Changes
11
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Inline
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Showing
11 changed files
with
614 additions
and
785 deletions
+614
-785
arch/arm/mach-spear3xx/spear300.c
arch/arm/mach-spear3xx/spear300.c
+0
-26
arch/arm/mach-spear3xx/spear310.c
arch/arm/mach-spear3xx/spear310.c
+0
-26
arch/arm/mach-spear3xx/spear320.c
arch/arm/mach-spear3xx/spear320.c
+0
-26
arch/arm/mach-spear3xx/spear3xx.c
arch/arm/mach-spear3xx/spear3xx.c
+2
-1
arch/arm/mach-spear6xx/spear6xx.c
arch/arm/mach-spear6xx/spear6xx.c
+2
-49
arch/arm/plat-spear/include/plat/pl080.h
arch/arm/plat-spear/include/plat/pl080.h
+3
-3
arch/arm/plat-spear/pl080.c
arch/arm/plat-spear/pl080.c
+4
-6
drivers/dma/Kconfig
drivers/dma/Kconfig
+1
-0
drivers/dma/amba-pl08x.c
drivers/dma/amba-pl08x.c
+473
-468
drivers/dma/sa11x0-dma.c
drivers/dma/sa11x0-dma.c
+121
-32
include/linux/amba/pl08x.h
include/linux/amba/pl08x.h
+8
-148
No files found.
arch/arm/mach-spear3xx/spear300.c
View file @
0e52d987
...
@@ -120,182 +120,156 @@ struct pl08x_channel_data spear300_dma_info[] = {
...
@@ -120,182 +120,156 @@ struct pl08x_channel_data spear300_dma_info[] = {
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart0_tx"
,
.
bus_id
=
"uart0_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_rx"
,
.
bus_id
=
"ssp0_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_tx"
,
.
bus_id
=
"ssp0_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_rx"
,
.
bus_id
=
"i2c_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_tx"
,
.
bus_id
=
"i2c_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"irda"
,
.
bus_id
=
"irda"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"adc"
,
.
bus_id
=
"adc"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"to_jpeg"
,
.
bus_id
=
"to_jpeg"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"from_jpeg"
,
.
bus_id
=
"from_jpeg"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras0_rx"
,
.
bus_id
=
"ras0_rx"
,
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras0_tx"
,
.
bus_id
=
"ras0_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras1_rx"
,
.
bus_id
=
"ras1_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras1_tx"
,
.
bus_id
=
"ras1_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras2_rx"
,
.
bus_id
=
"ras2_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras2_tx"
,
.
bus_id
=
"ras2_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras3_rx"
,
.
bus_id
=
"ras3_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras3_tx"
,
.
bus_id
=
"ras3_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras4_rx"
,
.
bus_id
=
"ras4_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras4_tx"
,
.
bus_id
=
"ras4_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_rx"
,
.
bus_id
=
"ras5_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_tx"
,
.
bus_id
=
"ras5_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_rx"
,
.
bus_id
=
"ras6_rx"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_tx"
,
.
bus_id
=
"ras6_tx"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_rx"
,
.
bus_id
=
"ras7_rx"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_tx"
,
.
bus_id
=
"ras7_tx"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
},
};
};
...
...
arch/arm/mach-spear3xx/spear310.c
View file @
0e52d987
...
@@ -205,182 +205,156 @@ struct pl08x_channel_data spear310_dma_info[] = {
...
@@ -205,182 +205,156 @@ struct pl08x_channel_data spear310_dma_info[] = {
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart0_tx"
,
.
bus_id
=
"uart0_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_rx"
,
.
bus_id
=
"ssp0_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_tx"
,
.
bus_id
=
"ssp0_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_rx"
,
.
bus_id
=
"i2c_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_tx"
,
.
bus_id
=
"i2c_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"irda"
,
.
bus_id
=
"irda"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"adc"
,
.
bus_id
=
"adc"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"to_jpeg"
,
.
bus_id
=
"to_jpeg"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"from_jpeg"
,
.
bus_id
=
"from_jpeg"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart1_rx"
,
.
bus_id
=
"uart1_rx"
,
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart1_tx"
,
.
bus_id
=
"uart1_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart2_rx"
,
.
bus_id
=
"uart2_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart2_tx"
,
.
bus_id
=
"uart2_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart3_rx"
,
.
bus_id
=
"uart3_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart3_tx"
,
.
bus_id
=
"uart3_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart4_rx"
,
.
bus_id
=
"uart4_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart4_tx"
,
.
bus_id
=
"uart4_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart5_rx"
,
.
bus_id
=
"uart5_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart5_tx"
,
.
bus_id
=
"uart5_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_rx"
,
.
bus_id
=
"ras5_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_tx"
,
.
bus_id
=
"ras5_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_rx"
,
.
bus_id
=
"ras6_rx"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_tx"
,
.
bus_id
=
"ras6_tx"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_rx"
,
.
bus_id
=
"ras7_rx"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_tx"
,
.
bus_id
=
"ras7_tx"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
},
};
};
...
...
arch/arm/mach-spear3xx/spear320.c
View file @
0e52d987
...
@@ -213,182 +213,156 @@ struct pl08x_channel_data spear320_dma_info[] = {
...
@@ -213,182 +213,156 @@ struct pl08x_channel_data spear320_dma_info[] = {
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart0_tx"
,
.
bus_id
=
"uart0_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_rx"
,
.
bus_id
=
"ssp0_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_tx"
,
.
bus_id
=
"ssp0_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c0_rx"
,
.
bus_id
=
"i2c0_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c0_tx"
,
.
bus_id
=
"i2c0_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"irda"
,
.
bus_id
=
"irda"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"adc"
,
.
bus_id
=
"adc"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"to_jpeg"
,
.
bus_id
=
"to_jpeg"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"from_jpeg"
,
.
bus_id
=
"from_jpeg"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp1_rx"
,
.
bus_id
=
"ssp1_rx"
,
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ssp1_tx"
,
.
bus_id
=
"ssp1_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ssp2_rx"
,
.
bus_id
=
"ssp2_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ssp2_tx"
,
.
bus_id
=
"ssp2_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"uart1_rx"
,
.
bus_id
=
"uart1_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"uart1_tx"
,
.
bus_id
=
"uart1_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"uart2_rx"
,
.
bus_id
=
"uart2_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"uart2_tx"
,
.
bus_id
=
"uart2_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2c1_rx"
,
.
bus_id
=
"i2c1_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2c1_tx"
,
.
bus_id
=
"i2c1_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2c2_rx"
,
.
bus_id
=
"i2c2_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2c2_tx"
,
.
bus_id
=
"i2c2_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2s_rx"
,
.
bus_id
=
"i2s_rx"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"i2s_tx"
,
.
bus_id
=
"i2s_tx"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"rs485_rx"
,
.
bus_id
=
"rs485_rx"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"rs485_tx"
,
.
bus_id
=
"rs485_tx"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
},
};
};
...
...
arch/arm/mach-spear3xx/spear3xx.c
View file @
0e52d987
...
@@ -46,7 +46,8 @@ struct pl022_ssp_controller pl022_plat_data = {
...
@@ -46,7 +46,8 @@ struct pl022_ssp_controller pl022_plat_data = {
struct
pl08x_platform_data
pl080_plat_data
=
{
struct
pl08x_platform_data
pl080_plat_data
=
{
.
memcpy_channel
=
{
.
memcpy_channel
=
{
.
bus_id
=
"memcpy"
,
.
bus_id
=
"memcpy"
,
.
cctl
=
(
PL080_BSIZE_16
<<
PL080_CONTROL_SB_SIZE_SHIFT
|
\
.
cctl_memcpy
=
(
PL080_BSIZE_16
<<
PL080_CONTROL_SB_SIZE_SHIFT
|
\
PL080_BSIZE_16
<<
PL080_CONTROL_DB_SIZE_SHIFT
|
\
PL080_BSIZE_16
<<
PL080_CONTROL_DB_SIZE_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_SWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_SWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_DWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_DWIDTH_SHIFT
|
\
...
...
arch/arm/mach-spear6xx/spear6xx.c
View file @
0e52d987
...
@@ -36,336 +36,288 @@ static struct pl08x_channel_data spear600_dma_info[] = {
...
@@ -36,336 +36,288 @@ static struct pl08x_channel_data spear600_dma_info[] = {
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp1_tx"
,
.
bus_id
=
"ssp1_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart0_rx"
,
.
bus_id
=
"uart0_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart0_tx"
,
.
bus_id
=
"uart0_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart1_rx"
,
.
bus_id
=
"uart1_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"uart1_tx"
,
.
bus_id
=
"uart1_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp2_rx"
,
.
bus_id
=
"ssp2_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ssp2_tx"
,
.
bus_id
=
"ssp2_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ssp0_rx"
,
.
bus_id
=
"ssp0_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ssp0_tx"
,
.
bus_id
=
"ssp0_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_rx"
,
.
bus_id
=
"i2c_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"i2c_tx"
,
.
bus_id
=
"i2c_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"irda"
,
.
bus_id
=
"irda"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"adc"
,
.
bus_id
=
"adc"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"to_jpeg"
,
.
bus_id
=
"to_jpeg"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"from_jpeg"
,
.
bus_id
=
"from_jpeg"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
0
,
.
muxval
=
0
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras0_rx"
,
.
bus_id
=
"ras0_rx"
,
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras0_tx"
,
.
bus_id
=
"ras0_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras1_rx"
,
.
bus_id
=
"ras1_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras1_tx"
,
.
bus_id
=
"ras1_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras2_rx"
,
.
bus_id
=
"ras2_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras2_tx"
,
.
bus_id
=
"ras2_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras3_rx"
,
.
bus_id
=
"ras3_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras3_tx"
,
.
bus_id
=
"ras3_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras4_rx"
,
.
bus_id
=
"ras4_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras4_tx"
,
.
bus_id
=
"ras4_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_rx"
,
.
bus_id
=
"ras5_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras5_tx"
,
.
bus_id
=
"ras5_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_rx"
,
.
bus_id
=
"ras6_rx"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras6_tx"
,
.
bus_id
=
"ras6_tx"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_rx"
,
.
bus_id
=
"ras7_rx"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ras7_tx"
,
.
bus_id
=
"ras7_tx"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
1
,
.
muxval
=
1
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB1
,
.
periph_buses
=
PL08X_AHB1
,
},
{
},
{
.
bus_id
=
"ext0_rx"
,
.
bus_id
=
"ext0_rx"
,
.
min_signal
=
0
,
.
min_signal
=
0
,
.
max_signal
=
0
,
.
max_signal
=
0
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext0_tx"
,
.
bus_id
=
"ext0_tx"
,
.
min_signal
=
1
,
.
min_signal
=
1
,
.
max_signal
=
1
,
.
max_signal
=
1
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext1_rx"
,
.
bus_id
=
"ext1_rx"
,
.
min_signal
=
2
,
.
min_signal
=
2
,
.
max_signal
=
2
,
.
max_signal
=
2
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext1_tx"
,
.
bus_id
=
"ext1_tx"
,
.
min_signal
=
3
,
.
min_signal
=
3
,
.
max_signal
=
3
,
.
max_signal
=
3
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext2_rx"
,
.
bus_id
=
"ext2_rx"
,
.
min_signal
=
4
,
.
min_signal
=
4
,
.
max_signal
=
4
,
.
max_signal
=
4
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext2_tx"
,
.
bus_id
=
"ext2_tx"
,
.
min_signal
=
5
,
.
min_signal
=
5
,
.
max_signal
=
5
,
.
max_signal
=
5
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext3_rx"
,
.
bus_id
=
"ext3_rx"
,
.
min_signal
=
6
,
.
min_signal
=
6
,
.
max_signal
=
6
,
.
max_signal
=
6
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext3_tx"
,
.
bus_id
=
"ext3_tx"
,
.
min_signal
=
7
,
.
min_signal
=
7
,
.
max_signal
=
7
,
.
max_signal
=
7
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext4_rx"
,
.
bus_id
=
"ext4_rx"
,
.
min_signal
=
8
,
.
min_signal
=
8
,
.
max_signal
=
8
,
.
max_signal
=
8
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext4_tx"
,
.
bus_id
=
"ext4_tx"
,
.
min_signal
=
9
,
.
min_signal
=
9
,
.
max_signal
=
9
,
.
max_signal
=
9
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext5_rx"
,
.
bus_id
=
"ext5_rx"
,
.
min_signal
=
10
,
.
min_signal
=
10
,
.
max_signal
=
10
,
.
max_signal
=
10
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext5_tx"
,
.
bus_id
=
"ext5_tx"
,
.
min_signal
=
11
,
.
min_signal
=
11
,
.
max_signal
=
11
,
.
max_signal
=
11
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext6_rx"
,
.
bus_id
=
"ext6_rx"
,
.
min_signal
=
12
,
.
min_signal
=
12
,
.
max_signal
=
12
,
.
max_signal
=
12
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext6_tx"
,
.
bus_id
=
"ext6_tx"
,
.
min_signal
=
13
,
.
min_signal
=
13
,
.
max_signal
=
13
,
.
max_signal
=
13
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext7_rx"
,
.
bus_id
=
"ext7_rx"
,
.
min_signal
=
14
,
.
min_signal
=
14
,
.
max_signal
=
14
,
.
max_signal
=
14
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
{
},
{
.
bus_id
=
"ext7_tx"
,
.
bus_id
=
"ext7_tx"
,
.
min_signal
=
15
,
.
min_signal
=
15
,
.
max_signal
=
15
,
.
max_signal
=
15
,
.
muxval
=
2
,
.
muxval
=
2
,
.
cctl
=
0
,
.
periph_buses
=
PL08X_AHB2
,
.
periph_buses
=
PL08X_AHB2
,
},
},
};
};
...
@@ -373,7 +325,8 @@ static struct pl08x_channel_data spear600_dma_info[] = {
...
@@ -373,7 +325,8 @@ static struct pl08x_channel_data spear600_dma_info[] = {
struct
pl08x_platform_data
pl080_plat_data
=
{
struct
pl08x_platform_data
pl080_plat_data
=
{
.
memcpy_channel
=
{
.
memcpy_channel
=
{
.
bus_id
=
"memcpy"
,
.
bus_id
=
"memcpy"
,
.
cctl
=
(
PL080_BSIZE_16
<<
PL080_CONTROL_SB_SIZE_SHIFT
|
\
.
cctl_memcpy
=
(
PL080_BSIZE_16
<<
PL080_CONTROL_SB_SIZE_SHIFT
|
\
PL080_BSIZE_16
<<
PL080_CONTROL_DB_SIZE_SHIFT
|
\
PL080_BSIZE_16
<<
PL080_CONTROL_DB_SIZE_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_SWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_SWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_DWIDTH_SHIFT
|
\
PL080_WIDTH_32BIT
<<
PL080_CONTROL_DWIDTH_SHIFT
|
\
...
...
arch/arm/plat-spear/include/plat/pl080.h
View file @
0e52d987
...
@@ -14,8 +14,8 @@
...
@@ -14,8 +14,8 @@
#ifndef __PLAT_PL080_H
#ifndef __PLAT_PL080_H
#define __PLAT_PL080_H
#define __PLAT_PL080_H
struct
pl08x_
dma_chan
;
struct
pl08x_
channel_data
;
int
pl080_get_signal
(
struct
pl08x_dma_chan
*
ch
);
int
pl080_get_signal
(
const
struct
pl08x_channel_data
*
cd
);
void
pl080_put_signal
(
struct
pl08x_dma_chan
*
ch
);
void
pl080_put_signal
(
const
struct
pl08x_channel_data
*
cd
,
int
signal
);
#endif
/* __PLAT_PL080_H */
#endif
/* __PLAT_PL080_H */
arch/arm/plat-spear/pl080.c
View file @
0e52d987
...
@@ -27,9 +27,8 @@ struct {
...
@@ -27,9 +27,8 @@ struct {
unsigned
char
val
;
unsigned
char
val
;
}
signals
[
16
]
=
{{
0
,
0
},
};
}
signals
[
16
]
=
{{
0
,
0
},
};
int
pl080_get_signal
(
struct
pl08x_dma_chan
*
ch
)
int
pl080_get_signal
(
const
struct
pl08x_channel_data
*
cd
)
{
{
const
struct
pl08x_channel_data
*
cd
=
ch
->
cd
;
unsigned
int
signal
=
cd
->
min_signal
,
val
;
unsigned
int
signal
=
cd
->
min_signal
,
val
;
unsigned
long
flags
;
unsigned
long
flags
;
...
@@ -63,18 +62,17 @@ int pl080_get_signal(struct pl08x_dma_chan *ch)
...
@@ -63,18 +62,17 @@ int pl080_get_signal(struct pl08x_dma_chan *ch)
return
signal
;
return
signal
;
}
}
void
pl080_put_signal
(
struct
pl08x_dma_chan
*
ch
)
void
pl080_put_signal
(
const
struct
pl08x_channel_data
*
cd
,
int
signal
)
{
{
const
struct
pl08x_channel_data
*
cd
=
ch
->
cd
;
unsigned
long
flags
;
unsigned
long
flags
;
spin_lock_irqsave
(
&
lock
,
flags
);
spin_lock_irqsave
(
&
lock
,
flags
);
/* if signal is not used */
/* if signal is not used */
if
(
!
signals
[
cd
->
min_
signal
].
busy
)
if
(
!
signals
[
signal
].
busy
)
BUG
();
BUG
();
signals
[
cd
->
min_
signal
].
busy
--
;
signals
[
signal
].
busy
--
;
spin_unlock_irqrestore
(
&
lock
,
flags
);
spin_unlock_irqrestore
(
&
lock
,
flags
);
}
}
drivers/dma/Kconfig
View file @
0e52d987
...
@@ -53,6 +53,7 @@ config AMBA_PL08X
...
@@ -53,6 +53,7 @@ config AMBA_PL08X
bool "ARM PrimeCell PL080 or PL081 support"
bool "ARM PrimeCell PL080 or PL081 support"
depends on ARM_AMBA && EXPERIMENTAL
depends on ARM_AMBA && EXPERIMENTAL
select DMA_ENGINE
select DMA_ENGINE
select DMA_VIRTUAL_CHANNELS
help
help
Platform has a PL08x DMAC device
Platform has a PL08x DMAC device
which can provide DMA engine support
which can provide DMA engine support
...
...
drivers/dma/amba-pl08x.c
View file @
0e52d987
...
@@ -86,10 +86,12 @@
...
@@ -86,10 +86,12 @@
#include <asm/hardware/pl080.h>
#include <asm/hardware/pl080.h>
#include "dmaengine.h"
#include "dmaengine.h"
#include "virt-dma.h"
#define DRIVER_NAME "pl08xdmac"
#define DRIVER_NAME "pl08xdmac"
static
struct
amba_driver
pl08x_amba_driver
;
static
struct
amba_driver
pl08x_amba_driver
;
struct
pl08x_driver_data
;
/**
/**
* struct vendor_data - vendor-specific config parameters for PL08x derivatives
* struct vendor_data - vendor-specific config parameters for PL08x derivatives
...
@@ -118,6 +120,123 @@ struct pl08x_lli {
...
@@ -118,6 +120,123 @@ struct pl08x_lli {
u32
cctl
;
u32
cctl
;
};
};
/**
* struct pl08x_bus_data - information of source or destination
* busses for a transfer
* @addr: current address
* @maxwidth: the maximum width of a transfer on this bus
* @buswidth: the width of this bus in bytes: 1, 2 or 4
*/
struct
pl08x_bus_data
{
dma_addr_t
addr
;
u8
maxwidth
;
u8
buswidth
;
};
/**
* struct pl08x_phy_chan - holder for the physical channels
* @id: physical index to this channel
* @lock: a lock to use when altering an instance of this struct
* @serving: the virtual channel currently being served by this physical
* channel
* @locked: channel unavailable for the system, e.g. dedicated to secure
* world
*/
struct
pl08x_phy_chan
{
unsigned
int
id
;
void
__iomem
*
base
;
spinlock_t
lock
;
struct
pl08x_dma_chan
*
serving
;
bool
locked
;
};
/**
* struct pl08x_sg - structure containing data per sg
* @src_addr: src address of sg
* @dst_addr: dst address of sg
* @len: transfer len in bytes
* @node: node for txd's dsg_list
*/
struct
pl08x_sg
{
dma_addr_t
src_addr
;
dma_addr_t
dst_addr
;
size_t
len
;
struct
list_head
node
;
};
/**
* struct pl08x_txd - wrapper for struct dma_async_tx_descriptor
* @vd: virtual DMA descriptor
* @dsg_list: list of children sg's
* @llis_bus: DMA memory address (physical) start for the LLIs
* @llis_va: virtual memory address start for the LLIs
* @cctl: control reg values for current txd
* @ccfg: config reg values for current txd
* @done: this marks completed descriptors, which should not have their
* mux released.
*/
struct
pl08x_txd
{
struct
virt_dma_desc
vd
;
struct
list_head
dsg_list
;
dma_addr_t
llis_bus
;
struct
pl08x_lli
*
llis_va
;
/* Default cctl value for LLIs */
u32
cctl
;
/*
* Settings to be put into the physical channel when we
* trigger this txd. Other registers are in llis_va[0].
*/
u32
ccfg
;
bool
done
;
};
/**
* struct pl08x_dma_chan_state - holds the PL08x specific virtual channel
* states
* @PL08X_CHAN_IDLE: the channel is idle
* @PL08X_CHAN_RUNNING: the channel has allocated a physical transport
* channel and is running a transfer on it
* @PL08X_CHAN_PAUSED: the channel has allocated a physical transport
* channel, but the transfer is currently paused
* @PL08X_CHAN_WAITING: the channel is waiting for a physical transport
* channel to become available (only pertains to memcpy channels)
*/
enum
pl08x_dma_chan_state
{
PL08X_CHAN_IDLE
,
PL08X_CHAN_RUNNING
,
PL08X_CHAN_PAUSED
,
PL08X_CHAN_WAITING
,
};
/**
* struct pl08x_dma_chan - this structure wraps a DMA ENGINE channel
* @vc: wrappped virtual channel
* @phychan: the physical channel utilized by this channel, if there is one
* @name: name of channel
* @cd: channel platform data
* @runtime_addr: address for RX/TX according to the runtime config
* @at: active transaction on this channel
* @lock: a lock for this channel data
* @host: a pointer to the host (internal use)
* @state: whether the channel is idle, paused, running etc
* @slave: whether this channel is a device (slave) or for memcpy
* @signal: the physical DMA request signal which this channel is using
* @mux_use: count of descriptors using this DMA request signal setting
*/
struct
pl08x_dma_chan
{
struct
virt_dma_chan
vc
;
struct
pl08x_phy_chan
*
phychan
;
const
char
*
name
;
const
struct
pl08x_channel_data
*
cd
;
struct
dma_slave_config
cfg
;
struct
pl08x_txd
*
at
;
struct
pl08x_driver_data
*
host
;
enum
pl08x_dma_chan_state
state
;
bool
slave
;
int
signal
;
unsigned
mux_use
;
};
/**
/**
* struct pl08x_driver_data - the local state holder for the PL08x
* struct pl08x_driver_data - the local state holder for the PL08x
* @slave: slave engine for this instance
* @slave: slave engine for this instance
...
@@ -128,7 +247,6 @@ struct pl08x_lli {
...
@@ -128,7 +247,6 @@ struct pl08x_lli {
* @pd: platform data passed in from the platform/machine
* @pd: platform data passed in from the platform/machine
* @phy_chans: array of data for the physical channels
* @phy_chans: array of data for the physical channels
* @pool: a pool for the LLI descriptors
* @pool: a pool for the LLI descriptors
* @pool_ctr: counter of LLIs in the pool
* @lli_buses: bitmask to or in to LLI pointer selecting AHB port for LLI
* @lli_buses: bitmask to or in to LLI pointer selecting AHB port for LLI
* fetches
* fetches
* @mem_buses: set to indicate memory transfers on AHB2.
* @mem_buses: set to indicate memory transfers on AHB2.
...
@@ -143,10 +261,8 @@ struct pl08x_driver_data {
...
@@ -143,10 +261,8 @@ struct pl08x_driver_data {
struct
pl08x_platform_data
*
pd
;
struct
pl08x_platform_data
*
pd
;
struct
pl08x_phy_chan
*
phy_chans
;
struct
pl08x_phy_chan
*
phy_chans
;
struct
dma_pool
*
pool
;
struct
dma_pool
*
pool
;
int
pool_ctr
;
u8
lli_buses
;
u8
lli_buses
;
u8
mem_buses
;
u8
mem_buses
;
spinlock_t
lock
;
};
};
/*
/*
...
@@ -162,12 +278,51 @@ struct pl08x_driver_data {
...
@@ -162,12 +278,51 @@ struct pl08x_driver_data {
static
inline
struct
pl08x_dma_chan
*
to_pl08x_chan
(
struct
dma_chan
*
chan
)
static
inline
struct
pl08x_dma_chan
*
to_pl08x_chan
(
struct
dma_chan
*
chan
)
{
{
return
container_of
(
chan
,
struct
pl08x_dma_chan
,
chan
);
return
container_of
(
chan
,
struct
pl08x_dma_chan
,
vc
.
chan
);
}
}
static
inline
struct
pl08x_txd
*
to_pl08x_txd
(
struct
dma_async_tx_descriptor
*
tx
)
static
inline
struct
pl08x_txd
*
to_pl08x_txd
(
struct
dma_async_tx_descriptor
*
tx
)
{
{
return
container_of
(
tx
,
struct
pl08x_txd
,
tx
);
return
container_of
(
tx
,
struct
pl08x_txd
,
vd
.
tx
);
}
/*
* Mux handling.
*
* This gives us the DMA request input to the PL08x primecell which the
* peripheral described by the channel data will be routed to, possibly
* via a board/SoC specific external MUX. One important point to note
* here is that this does not depend on the physical channel.
*/
static
int
pl08x_request_mux
(
struct
pl08x_dma_chan
*
plchan
)
{
const
struct
pl08x_platform_data
*
pd
=
plchan
->
host
->
pd
;
int
ret
;
if
(
plchan
->
mux_use
++
==
0
&&
pd
->
get_signal
)
{
ret
=
pd
->
get_signal
(
plchan
->
cd
);
if
(
ret
<
0
)
{
plchan
->
mux_use
=
0
;
return
ret
;
}
plchan
->
signal
=
ret
;
}
return
0
;
}
static
void
pl08x_release_mux
(
struct
pl08x_dma_chan
*
plchan
)
{
const
struct
pl08x_platform_data
*
pd
=
plchan
->
host
->
pd
;
if
(
plchan
->
signal
>=
0
)
{
WARN_ON
(
plchan
->
mux_use
==
0
);
if
(
--
plchan
->
mux_use
==
0
&&
pd
->
put_signal
)
{
pd
->
put_signal
(
plchan
->
cd
,
plchan
->
signal
);
plchan
->
signal
=
-
1
;
}
}
}
}
/*
/*
...
@@ -189,20 +344,25 @@ static int pl08x_phy_channel_busy(struct pl08x_phy_chan *ch)
...
@@ -189,20 +344,25 @@ static int pl08x_phy_channel_busy(struct pl08x_phy_chan *ch)
* been set when the LLIs were constructed. Poke them into the hardware
* been set when the LLIs were constructed. Poke them into the hardware
* and start the transfer.
* and start the transfer.
*/
*/
static
void
pl08x_start_txd
(
struct
pl08x_dma_chan
*
plchan
,
static
void
pl08x_start_next_txd
(
struct
pl08x_dma_chan
*
plchan
)
struct
pl08x_txd
*
txd
)
{
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
struct
pl08x_phy_chan
*
phychan
=
plchan
->
phychan
;
struct
pl08x_phy_chan
*
phychan
=
plchan
->
phychan
;
struct
pl08x_lli
*
lli
=
&
txd
->
llis_va
[
0
];
struct
virt_dma_desc
*
vd
=
vchan_next_desc
(
&
plchan
->
vc
);
struct
pl08x_txd
*
txd
=
to_pl08x_txd
(
&
vd
->
tx
);
struct
pl08x_lli
*
lli
;
u32
val
;
u32
val
;
list_del
(
&
txd
->
vd
.
node
);
plchan
->
at
=
txd
;
plchan
->
at
=
txd
;
/* Wait for channel inactive */
/* Wait for channel inactive */
while
(
pl08x_phy_channel_busy
(
phychan
))
while
(
pl08x_phy_channel_busy
(
phychan
))
cpu_relax
();
cpu_relax
();
lli
=
&
txd
->
llis_va
[
0
];
dev_vdbg
(
&
pl08x
->
adev
->
dev
,
dev_vdbg
(
&
pl08x
->
adev
->
dev
,
"WRITE channel %d: csrc=0x%08x, cdst=0x%08x, "
"WRITE channel %d: csrc=0x%08x, cdst=0x%08x, "
"clli=0x%08x, cctl=0x%08x, ccfg=0x%08x
\n
"
,
"clli=0x%08x, cctl=0x%08x, ccfg=0x%08x
\n
"
,
...
@@ -311,10 +471,8 @@ static u32 pl08x_getbytes_chan(struct pl08x_dma_chan *plchan)
...
@@ -311,10 +471,8 @@ static u32 pl08x_getbytes_chan(struct pl08x_dma_chan *plchan)
{
{
struct
pl08x_phy_chan
*
ch
;
struct
pl08x_phy_chan
*
ch
;
struct
pl08x_txd
*
txd
;
struct
pl08x_txd
*
txd
;
unsigned
long
flags
;
size_t
bytes
=
0
;
size_t
bytes
=
0
;
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
ch
=
plchan
->
phychan
;
ch
=
plchan
->
phychan
;
txd
=
plchan
->
at
;
txd
=
plchan
->
at
;
...
@@ -354,18 +512,6 @@ static u32 pl08x_getbytes_chan(struct pl08x_dma_chan *plchan)
...
@@ -354,18 +512,6 @@ static u32 pl08x_getbytes_chan(struct pl08x_dma_chan *plchan)
}
}
}
}
/* Sum up all queued transactions */
if
(
!
list_empty
(
&
plchan
->
pend_list
))
{
struct
pl08x_txd
*
txdi
;
list_for_each_entry
(
txdi
,
&
plchan
->
pend_list
,
node
)
{
struct
pl08x_sg
*
dsg
;
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
bytes
+=
dsg
->
len
;
}
}
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
return
bytes
;
return
bytes
;
}
}
...
@@ -391,7 +537,6 @@ pl08x_get_phy_channel(struct pl08x_driver_data *pl08x,
...
@@ -391,7 +537,6 @@ pl08x_get_phy_channel(struct pl08x_driver_data *pl08x,
if
(
!
ch
->
locked
&&
!
ch
->
serving
)
{
if
(
!
ch
->
locked
&&
!
ch
->
serving
)
{
ch
->
serving
=
virt_chan
;
ch
->
serving
=
virt_chan
;
ch
->
signal
=
-
1
;
spin_unlock_irqrestore
(
&
ch
->
lock
,
flags
);
spin_unlock_irqrestore
(
&
ch
->
lock
,
flags
);
break
;
break
;
}
}
...
@@ -404,25 +549,114 @@ pl08x_get_phy_channel(struct pl08x_driver_data *pl08x,
...
@@ -404,25 +549,114 @@ pl08x_get_phy_channel(struct pl08x_driver_data *pl08x,
return
NULL
;
return
NULL
;
}
}
pm_runtime_get_sync
(
&
pl08x
->
adev
->
dev
);
return
ch
;
return
ch
;
}
}
/* Mark the physical channel as free. Note, this write is atomic. */
static
inline
void
pl08x_put_phy_channel
(
struct
pl08x_driver_data
*
pl08x
,
static
inline
void
pl08x_put_phy_channel
(
struct
pl08x_driver_data
*
pl08x
,
struct
pl08x_phy_chan
*
ch
)
struct
pl08x_phy_chan
*
ch
)
{
{
unsigned
long
flags
;
ch
->
serving
=
NULL
;
}
/*
* Try to allocate a physical channel. When successful, assign it to
* this virtual channel, and initiate the next descriptor. The
* virtual channel lock must be held at this point.
*/
static
void
pl08x_phy_alloc_and_start
(
struct
pl08x_dma_chan
*
plchan
)
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
struct
pl08x_phy_chan
*
ch
;
spin_lock_irqsave
(
&
ch
->
lock
,
flags
);
ch
=
pl08x_get_phy_channel
(
pl08x
,
plchan
);
if
(
!
ch
)
{
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"no physical channel available for xfer on %s
\n
"
,
plchan
->
name
);
plchan
->
state
=
PL08X_CHAN_WAITING
;
return
;
}
/* Stop the channel and clear its interrupts */
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"allocated physical channel %d for xfer on %s
\n
"
,
pl08x_terminate_phy_chan
(
pl08x
,
ch
);
ch
->
id
,
plchan
->
name
);
pm_runtime_put
(
&
pl08x
->
adev
->
dev
);
plchan
->
phychan
=
ch
;
plchan
->
state
=
PL08X_CHAN_RUNNING
;
pl08x_start_next_txd
(
plchan
);
}
/* Mark it as free */
static
void
pl08x_phy_reassign_start
(
struct
pl08x_phy_chan
*
ch
,
ch
->
serving
=
NULL
;
struct
pl08x_dma_chan
*
plchan
)
spin_unlock_irqrestore
(
&
ch
->
lock
,
flags
);
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"reassigned physical channel %d for xfer on %s
\n
"
,
ch
->
id
,
plchan
->
name
);
/*
* We do this without taking the lock; we're really only concerned
* about whether this pointer is NULL or not, and we're guaranteed
* that this will only be called when it _already_ is non-NULL.
*/
ch
->
serving
=
plchan
;
plchan
->
phychan
=
ch
;
plchan
->
state
=
PL08X_CHAN_RUNNING
;
pl08x_start_next_txd
(
plchan
);
}
/*
* Free a physical DMA channel, potentially reallocating it to another
* virtual channel if we have any pending.
*/
static
void
pl08x_phy_free
(
struct
pl08x_dma_chan
*
plchan
)
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
struct
pl08x_dma_chan
*
p
,
*
next
;
retry:
next
=
NULL
;
/* Find a waiting virtual channel for the next transfer. */
list_for_each_entry
(
p
,
&
pl08x
->
memcpy
.
channels
,
vc
.
chan
.
device_node
)
if
(
p
->
state
==
PL08X_CHAN_WAITING
)
{
next
=
p
;
break
;
}
if
(
!
next
)
{
list_for_each_entry
(
p
,
&
pl08x
->
slave
.
channels
,
vc
.
chan
.
device_node
)
if
(
p
->
state
==
PL08X_CHAN_WAITING
)
{
next
=
p
;
break
;
}
}
/* Ensure that the physical channel is stopped */
pl08x_terminate_phy_chan
(
pl08x
,
plchan
->
phychan
);
if
(
next
)
{
bool
success
;
/*
* Eww. We know this isn't going to deadlock
* but lockdep probably doesn't.
*/
spin_lock
(
&
next
->
vc
.
lock
);
/* Re-check the state now that we have the lock */
success
=
next
->
state
==
PL08X_CHAN_WAITING
;
if
(
success
)
pl08x_phy_reassign_start
(
plchan
->
phychan
,
next
);
spin_unlock
(
&
next
->
vc
.
lock
);
/* If the state changed, try to find another channel */
if
(
!
success
)
goto
retry
;
}
else
{
/* No more jobs, so free up the physical channel */
pl08x_put_phy_channel
(
pl08x
,
plchan
->
phychan
);
}
plchan
->
phychan
=
NULL
;
plchan
->
state
=
PL08X_CHAN_IDLE
;
}
}
/*
/*
...
@@ -585,8 +819,6 @@ static int pl08x_fill_llis_for_desc(struct pl08x_driver_data *pl08x,
...
@@ -585,8 +819,6 @@ static int pl08x_fill_llis_for_desc(struct pl08x_driver_data *pl08x,
return
0
;
return
0
;
}
}
pl08x
->
pool_ctr
++
;
bd
.
txd
=
txd
;
bd
.
txd
=
txd
;
bd
.
lli_bus
=
(
pl08x
->
lli_buses
&
PL08X_AHB2
)
?
PL080_LLI_LM_AHB2
:
0
;
bd
.
lli_bus
=
(
pl08x
->
lli_buses
&
PL08X_AHB2
)
?
PL080_LLI_LM_AHB2
:
0
;
cctl
=
txd
->
cctl
;
cctl
=
txd
->
cctl
;
...
@@ -802,18 +1034,14 @@ static int pl08x_fill_llis_for_desc(struct pl08x_driver_data *pl08x,
...
@@ -802,18 +1034,14 @@ static int pl08x_fill_llis_for_desc(struct pl08x_driver_data *pl08x,
return
num_llis
;
return
num_llis
;
}
}
/* You should call this with the struct pl08x lock held */
static
void
pl08x_free_txd
(
struct
pl08x_driver_data
*
pl08x
,
static
void
pl08x_free_txd
(
struct
pl08x_driver_data
*
pl08x
,
struct
pl08x_txd
*
txd
)
struct
pl08x_txd
*
txd
)
{
{
struct
pl08x_sg
*
dsg
,
*
_dsg
;
struct
pl08x_sg
*
dsg
,
*
_dsg
;
/* Free the LLI */
if
(
txd
->
llis_va
)
if
(
txd
->
llis_va
)
dma_pool_free
(
pl08x
->
pool
,
txd
->
llis_va
,
txd
->
llis_bus
);
dma_pool_free
(
pl08x
->
pool
,
txd
->
llis_va
,
txd
->
llis_bus
);
pl08x
->
pool_ctr
--
;
list_for_each_entry_safe
(
dsg
,
_dsg
,
&
txd
->
dsg_list
,
node
)
{
list_for_each_entry_safe
(
dsg
,
_dsg
,
&
txd
->
dsg_list
,
node
)
{
list_del
(
&
dsg
->
node
);
list_del
(
&
dsg
->
node
);
kfree
(
dsg
);
kfree
(
dsg
);
...
@@ -822,133 +1050,75 @@ static void pl08x_free_txd(struct pl08x_driver_data *pl08x,
...
@@ -822,133 +1050,75 @@ static void pl08x_free_txd(struct pl08x_driver_data *pl08x,
kfree
(
txd
);
kfree
(
txd
);
}
}
static
void
pl08x_free_txd_list
(
struct
pl08x_driver_data
*
pl08x
,
static
void
pl08x_unmap_buffers
(
struct
pl08x_txd
*
txd
)
struct
pl08x_dma_chan
*
plchan
)
{
{
struct
pl08x_txd
*
txdi
=
NULL
;
struct
device
*
dev
=
txd
->
vd
.
tx
.
chan
->
device
->
dev
;
struct
pl08x_txd
*
next
;
struct
pl08x_sg
*
dsg
;
if
(
!
list_empty
(
&
plchan
->
pend_list
))
{
if
(
!
(
txd
->
vd
.
tx
.
flags
&
DMA_COMPL_SKIP_SRC_UNMAP
))
{
list_for_each_entry_safe
(
txdi
,
if
(
txd
->
vd
.
tx
.
flags
&
DMA_COMPL_SRC_UNMAP_SINGLE
)
next
,
&
plchan
->
pend_list
,
node
)
{
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
list_del
(
&
txdi
->
node
);
dma_unmap_single
(
dev
,
dsg
->
src_addr
,
dsg
->
len
,
pl08x_free_txd
(
pl08x
,
txdi
);
DMA_TO_DEVICE
);
else
{
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_page
(
dev
,
dsg
->
src_addr
,
dsg
->
len
,
DMA_TO_DEVICE
);
}
}
}
}
if
(
!
(
txd
->
vd
.
tx
.
flags
&
DMA_COMPL_SKIP_DEST_UNMAP
))
{
if
(
txd
->
vd
.
tx
.
flags
&
DMA_COMPL_DEST_UNMAP_SINGLE
)
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_single
(
dev
,
dsg
->
dst_addr
,
dsg
->
len
,
DMA_FROM_DEVICE
);
else
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_page
(
dev
,
dsg
->
dst_addr
,
dsg
->
len
,
DMA_FROM_DEVICE
);
}
}
}
/*
static
void
pl08x_desc_free
(
struct
virt_dma_desc
*
vd
)
* The DMA ENGINE API
*/
static
int
pl08x_alloc_chan_resources
(
struct
dma_chan
*
chan
)
{
{
return
0
;
struct
pl08x_txd
*
txd
=
to_pl08x_txd
(
&
vd
->
tx
)
;
}
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
vd
->
tx
.
chan
);
static
void
pl08x_free_chan_resources
(
struct
dma_chan
*
chan
)
if
(
!
plchan
->
slave
)
{
pl08x_unmap_buffers
(
txd
);
if
(
!
txd
->
done
)
pl08x_release_mux
(
plchan
);
pl08x_free_txd
(
plchan
->
host
,
txd
);
}
}
/*
static
void
pl08x_free_txd_list
(
struct
pl08x_driver_data
*
pl08x
,
* This should be called with the channel plchan->lock held
struct
pl08x_dma_chan
*
plchan
)
*/
static
int
prep_phy_channel
(
struct
pl08x_dma_chan
*
plchan
,
struct
pl08x_txd
*
txd
)
{
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
LIST_HEAD
(
head
);
struct
pl08x_phy_chan
*
ch
;
struct
pl08x_txd
*
txd
;
int
ret
;
/* Check if we already have a channel */
if
(
plchan
->
phychan
)
{
ch
=
plchan
->
phychan
;
goto
got_channel
;
}
ch
=
pl08x_get_phy_channel
(
pl08x
,
plchan
);
vchan_get_all_descriptors
(
&
plchan
->
vc
,
&
head
);
if
(
!
ch
)
{
/* No physical channel available, cope with it */
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"no physical channel available for xfer on %s
\n
"
,
plchan
->
name
);
return
-
EBUSY
;
}
/*
while
(
!
list_empty
(
&
head
))
{
* OK we have a physical channel: for memcpy() this is all we
txd
=
list_first_entry
(
&
head
,
struct
pl08x_txd
,
vd
.
node
);
* need, but for slaves the physical signals may be muxed!
list_del
(
&
txd
->
vd
.
node
);
* Can the platform allow us to use this channel?
pl08x_desc_free
(
&
txd
->
vd
);
*/
if
(
plchan
->
slave
&&
pl08x
->
pd
->
get_signal
)
{
ret
=
pl08x
->
pd
->
get_signal
(
plchan
);
if
(
ret
<
0
)
{
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"unable to use physical channel %d for transfer on %s due to platform restrictions
\n
"
,
ch
->
id
,
plchan
->
name
);
/* Release physical channel & return */
pl08x_put_phy_channel
(
pl08x
,
ch
);
return
-
EBUSY
;
}
ch
->
signal
=
ret
;
}
}
plchan
->
phychan
=
ch
;
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"allocated physical channel %d and signal %d for xfer on %s
\n
"
,
ch
->
id
,
ch
->
signal
,
plchan
->
name
);
got_channel:
/* Assign the flow control signal to this channel */
if
(
txd
->
direction
==
DMA_MEM_TO_DEV
)
txd
->
ccfg
|=
ch
->
signal
<<
PL080_CONFIG_DST_SEL_SHIFT
;
else
if
(
txd
->
direction
==
DMA_DEV_TO_MEM
)
txd
->
ccfg
|=
ch
->
signal
<<
PL080_CONFIG_SRC_SEL_SHIFT
;
plchan
->
phychan_hold
++
;
return
0
;
}
}
static
void
release_phy_channel
(
struct
pl08x_dma_chan
*
plchan
)
/*
* The DMA ENGINE API
*/
static
int
pl08x_alloc_chan_resources
(
struct
dma_chan
*
chan
)
{
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
return
0
;
if
((
plchan
->
phychan
->
signal
>=
0
)
&&
pl08x
->
pd
->
put_signal
)
{
pl08x
->
pd
->
put_signal
(
plchan
);
plchan
->
phychan
->
signal
=
-
1
;
}
pl08x_put_phy_channel
(
pl08x
,
plchan
->
phychan
);
plchan
->
phychan
=
NULL
;
}
}
static
dma_cookie_t
pl08x_tx_submit
(
struct
dma_async_tx_descriptor
*
tx
)
static
void
pl08x_free_chan_resources
(
struct
dma_chan
*
chan
)
{
{
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
tx
->
chan
);
/* Ensure all queued descriptors are freed */
struct
pl08x_txd
*
txd
=
to_pl08x_txd
(
tx
);
vchan_free_chan_resources
(
to_virt_chan
(
chan
));
unsigned
long
flags
;
dma_cookie_t
cookie
;
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
cookie
=
dma_cookie_assign
(
tx
);
/* Put this onto the pending list */
list_add_tail
(
&
txd
->
node
,
&
plchan
->
pend_list
);
/*
* If there was no physical channel available for this memcpy,
* stack the request up and indicate that the channel is waiting
* for a free physical channel.
*/
if
(
!
plchan
->
slave
&&
!
plchan
->
phychan
)
{
/* Do this memcpy whenever there is a channel ready */
plchan
->
state
=
PL08X_CHAN_WAITING
;
plchan
->
waiting
=
txd
;
}
else
{
plchan
->
phychan_hold
--
;
}
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
return
cookie
;
}
}
static
struct
dma_async_tx_descriptor
*
pl08x_prep_dma_interrupt
(
static
struct
dma_async_tx_descriptor
*
pl08x_prep_dma_interrupt
(
...
@@ -968,23 +1138,53 @@ static enum dma_status pl08x_dma_tx_status(struct dma_chan *chan,
...
@@ -968,23 +1138,53 @@ static enum dma_status pl08x_dma_tx_status(struct dma_chan *chan,
dma_cookie_t
cookie
,
struct
dma_tx_state
*
txstate
)
dma_cookie_t
cookie
,
struct
dma_tx_state
*
txstate
)
{
{
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
struct
virt_dma_desc
*
vd
;
unsigned
long
flags
;
enum
dma_status
ret
;
enum
dma_status
ret
;
size_t
bytes
=
0
;
ret
=
dma_cookie_status
(
chan
,
cookie
,
txstate
);
ret
=
dma_cookie_status
(
chan
,
cookie
,
txstate
);
if
(
ret
==
DMA_SUCCESS
)
if
(
ret
==
DMA_SUCCESS
)
return
ret
;
return
ret
;
/*
* There's no point calculating the residue if there's
* no txstate to store the value.
*/
if
(
!
txstate
)
{
if
(
plchan
->
state
==
PL08X_CHAN_PAUSED
)
ret
=
DMA_PAUSED
;
return
ret
;
}
spin_lock_irqsave
(
&
plchan
->
vc
.
lock
,
flags
);
ret
=
dma_cookie_status
(
chan
,
cookie
,
txstate
);
if
(
ret
!=
DMA_SUCCESS
)
{
vd
=
vchan_find_desc
(
&
plchan
->
vc
,
cookie
);
if
(
vd
)
{
/* On the issued list, so hasn't been processed yet */
struct
pl08x_txd
*
txd
=
to_pl08x_txd
(
&
vd
->
tx
);
struct
pl08x_sg
*
dsg
;
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
bytes
+=
dsg
->
len
;
}
else
{
bytes
=
pl08x_getbytes_chan
(
plchan
);
}
}
spin_unlock_irqrestore
(
&
plchan
->
vc
.
lock
,
flags
);
/*
/*
* This cookie not complete yet
* This cookie not complete yet
* Get number of bytes left in the active transactions and queue
* Get number of bytes left in the active transactions and queue
*/
*/
dma_set_residue
(
txstate
,
pl08x_getbytes_chan
(
plchan
)
);
dma_set_residue
(
txstate
,
bytes
);
if
(
plchan
->
state
==
PL08X_CHAN_PAUSED
)
if
(
plchan
->
state
==
PL08X_CHAN_PAUSED
&&
ret
==
DMA_IN_PROGRESS
)
ret
urn
DMA_PAUSED
;
ret
=
DMA_PAUSED
;
/* Whether waiting or running, we're in progress */
/* Whether waiting or running, we're in progress */
return
DMA_IN_PROGRESS
;
return
ret
;
}
}
/* PrimeCell DMA extension */
/* PrimeCell DMA extension */
...
@@ -1080,38 +1280,14 @@ static u32 pl08x_burst(u32 maxburst)
...
@@ -1080,38 +1280,14 @@ static u32 pl08x_burst(u32 maxburst)
return
burst_sizes
[
i
].
reg
;
return
burst_sizes
[
i
].
reg
;
}
}
static
int
dma_set_runtime_config
(
struct
dma_chan
*
chan
,
static
u32
pl08x_get_cctl
(
struct
pl08x_dma_chan
*
pl
chan
,
struct
dma_slave_config
*
config
)
enum
dma_slave_buswidth
addr_width
,
u32
maxburst
)
{
{
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
u32
width
,
burst
,
cctl
=
0
;
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
enum
dma_slave_buswidth
addr_width
;
u32
width
,
burst
,
maxburst
;
u32
cctl
=
0
;
if
(
!
plchan
->
slave
)
return
-
EINVAL
;
/* Transfer direction */
plchan
->
runtime_direction
=
config
->
direction
;
if
(
config
->
direction
==
DMA_MEM_TO_DEV
)
{
addr_width
=
config
->
dst_addr_width
;
maxburst
=
config
->
dst_maxburst
;
}
else
if
(
config
->
direction
==
DMA_DEV_TO_MEM
)
{
addr_width
=
config
->
src_addr_width
;
maxburst
=
config
->
src_maxburst
;
}
else
{
dev_err
(
&
pl08x
->
adev
->
dev
,
"bad runtime_config: alien transfer direction
\n
"
);
return
-
EINVAL
;
}
width
=
pl08x_width
(
addr_width
);
width
=
pl08x_width
(
addr_width
);
if
(
width
==
~
0
)
{
if
(
width
==
~
0
)
dev_err
(
&
pl08x
->
adev
->
dev
,
return
~
0
;
"bad runtime_config: alien address width
\n
"
);
return
-
EINVAL
;
}
cctl
|=
width
<<
PL080_CONTROL_SWIDTH_SHIFT
;
cctl
|=
width
<<
PL080_CONTROL_SWIDTH_SHIFT
;
cctl
|=
width
<<
PL080_CONTROL_DWIDTH_SHIFT
;
cctl
|=
width
<<
PL080_CONTROL_DWIDTH_SHIFT
;
...
@@ -1128,28 +1304,23 @@ static int dma_set_runtime_config(struct dma_chan *chan,
...
@@ -1128,28 +1304,23 @@ static int dma_set_runtime_config(struct dma_chan *chan,
cctl
|=
burst
<<
PL080_CONTROL_SB_SIZE_SHIFT
;
cctl
|=
burst
<<
PL080_CONTROL_SB_SIZE_SHIFT
;
cctl
|=
burst
<<
PL080_CONTROL_DB_SIZE_SHIFT
;
cctl
|=
burst
<<
PL080_CONTROL_DB_SIZE_SHIFT
;
plchan
->
device_fc
=
config
->
device_fc
;
return
pl08x_cctl
(
cctl
);
}
if
(
plchan
->
runtime_direction
==
DMA_DEV_TO_MEM
)
{
static
int
dma_set_runtime_config
(
struct
dma_chan
*
chan
,
plchan
->
src_addr
=
config
->
src_addr
;
struct
dma_slave_config
*
config
)
plchan
->
src_cctl
=
pl08x_cctl
(
cctl
)
|
PL080_CONTROL_DST_INCR
|
{
pl08x_select_bus
(
plchan
->
cd
->
periph_buses
,
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
pl08x
->
mem_buses
);
}
else
{
plchan
->
dst_addr
=
config
->
dst_addr
;
plchan
->
dst_cctl
=
pl08x_cctl
(
cctl
)
|
PL080_CONTROL_SRC_INCR
|
pl08x_select_bus
(
pl08x
->
mem_buses
,
plchan
->
cd
->
periph_buses
);
}
dev_dbg
(
&
pl08x
->
adev
->
dev
,
if
(
!
plchan
->
slave
)
"configured channel %s (%s) for %s, data width %d, "
return
-
EINVAL
;
"maxburst %d words, LE, CCTL=0x%08x
\n
"
,
dma_chan_name
(
chan
),
plchan
->
name
,
/* Reject definitely invalid configurations */
(
config
->
direction
==
DMA_DEV_TO_MEM
)
?
"RX"
:
"TX"
,
if
(
config
->
src_addr_width
==
DMA_SLAVE_BUSWIDTH_8_BYTES
||
addr_width
,
config
->
dst_addr_width
==
DMA_SLAVE_BUSWIDTH_8_BYTES
)
maxburst
,
return
-
EINVAL
;
cctl
);
plchan
->
cfg
=
*
config
;
return
0
;
return
0
;
}
}
...
@@ -1163,95 +1334,19 @@ static void pl08x_issue_pending(struct dma_chan *chan)
...
@@ -1163,95 +1334,19 @@ static void pl08x_issue_pending(struct dma_chan *chan)
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
struct
pl08x_dma_chan
*
plchan
=
to_pl08x_chan
(
chan
);
unsigned
long
flags
;
unsigned
long
flags
;
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
spin_lock_irqsave
(
&
plchan
->
vc
.
lock
,
flags
);
/* Something is already active, or we're waiting for a channel... */
if
(
vchan_issue_pending
(
&
plchan
->
vc
))
{
if
(
plchan
->
at
||
plchan
->
state
==
PL08X_CHAN_WAITING
)
{
if
(
!
plchan
->
phychan
&&
plchan
->
state
!=
PL08X_CHAN_WAITING
)
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
pl08x_phy_alloc_and_start
(
plchan
);
return
;
}
/* Take the first element in the queue and execute it */
if
(
!
list_empty
(
&
plchan
->
pend_list
))
{
struct
pl08x_txd
*
next
;
next
=
list_first_entry
(
&
plchan
->
pend_list
,
struct
pl08x_txd
,
node
);
list_del
(
&
next
->
node
);
plchan
->
state
=
PL08X_CHAN_RUNNING
;
pl08x_start_txd
(
plchan
,
next
);
}
}
spin_unlock_irqrestore
(
&
plchan
->
vc
.
lock
,
flags
);
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
}
static
int
pl08x_prep_channel_resources
(
struct
pl08x_dma_chan
*
plchan
,
struct
pl08x_txd
*
txd
)
{
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
unsigned
long
flags
;
int
num_llis
,
ret
;
num_llis
=
pl08x_fill_llis_for_desc
(
pl08x
,
txd
);
if
(
!
num_llis
)
{
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
pl08x_free_txd
(
pl08x
,
txd
);
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
return
-
EINVAL
;
}
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
/*
* See if we already have a physical channel allocated,
* else this is the time to try to get one.
*/
ret
=
prep_phy_channel
(
plchan
,
txd
);
if
(
ret
)
{
/*
* No physical channel was available.
*
* memcpy transfers can be sorted out at submission time.
*
* Slave transfers may have been denied due to platform
* channel muxing restrictions. Since there is no guarantee
* that this will ever be resolved, and the signal must be
* acquired AFTER acquiring the physical channel, we will let
* them be NACK:ed with -EBUSY here. The drivers can retry
* the prep() call if they are eager on doing this using DMA.
*/
if
(
plchan
->
slave
)
{
pl08x_free_txd_list
(
pl08x
,
plchan
);
pl08x_free_txd
(
pl08x
,
txd
);
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
return
-
EBUSY
;
}
}
else
/*
* Else we're all set, paused and ready to roll, status
* will switch to PL08X_CHAN_RUNNING when we call
* issue_pending(). If there is something running on the
* channel already we don't change its state.
*/
if
(
plchan
->
state
==
PL08X_CHAN_IDLE
)
plchan
->
state
=
PL08X_CHAN_PAUSED
;
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
return
0
;
}
}
static
struct
pl08x_txd
*
pl08x_get_txd
(
struct
pl08x_dma_chan
*
plchan
,
static
struct
pl08x_txd
*
pl08x_get_txd
(
struct
pl08x_dma_chan
*
plchan
)
unsigned
long
flags
)
{
{
struct
pl08x_txd
*
txd
=
kzalloc
(
sizeof
(
*
txd
),
GFP_NOWAIT
);
struct
pl08x_txd
*
txd
=
kzalloc
(
sizeof
(
*
txd
),
GFP_NOWAIT
);
if
(
txd
)
{
if
(
txd
)
{
dma_async_tx_descriptor_init
(
&
txd
->
tx
,
&
plchan
->
chan
);
txd
->
tx
.
flags
=
flags
;
txd
->
tx
.
tx_submit
=
pl08x_tx_submit
;
INIT_LIST_HEAD
(
&
txd
->
node
);
INIT_LIST_HEAD
(
&
txd
->
dsg_list
);
INIT_LIST_HEAD
(
&
txd
->
dsg_list
);
/* Always enable error and terminal interrupts */
/* Always enable error and terminal interrupts */
...
@@ -1274,7 +1369,7 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
...
@@ -1274,7 +1369,7 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
struct
pl08x_sg
*
dsg
;
struct
pl08x_sg
*
dsg
;
int
ret
;
int
ret
;
txd
=
pl08x_get_txd
(
plchan
,
flags
);
txd
=
pl08x_get_txd
(
plchan
);
if
(
!
txd
)
{
if
(
!
txd
)
{
dev_err
(
&
pl08x
->
adev
->
dev
,
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s no memory for descriptor
\n
"
,
__func__
);
"%s no memory for descriptor
\n
"
,
__func__
);
...
@@ -1290,14 +1385,13 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
...
@@ -1290,14 +1385,13 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
}
}
list_add_tail
(
&
dsg
->
node
,
&
txd
->
dsg_list
);
list_add_tail
(
&
dsg
->
node
,
&
txd
->
dsg_list
);
txd
->
direction
=
DMA_NONE
;
dsg
->
src_addr
=
src
;
dsg
->
src_addr
=
src
;
dsg
->
dst_addr
=
dest
;
dsg
->
dst_addr
=
dest
;
dsg
->
len
=
len
;
dsg
->
len
=
len
;
/* Set platform data for m2m */
/* Set platform data for m2m */
txd
->
ccfg
|=
PL080_FLOW_MEM2MEM
<<
PL080_CONFIG_FLOW_CONTROL_SHIFT
;
txd
->
ccfg
|=
PL080_FLOW_MEM2MEM
<<
PL080_CONFIG_FLOW_CONTROL_SHIFT
;
txd
->
cctl
=
pl08x
->
pd
->
memcpy_channel
.
cctl
&
txd
->
cctl
=
pl08x
->
pd
->
memcpy_channel
.
cctl
_memcpy
&
~
(
PL080_CONTROL_DST_AHB2
|
PL080_CONTROL_SRC_AHB2
);
~
(
PL080_CONTROL_DST_AHB2
|
PL080_CONTROL_SRC_AHB2
);
/* Both to be incremented or the code will break */
/* Both to be incremented or the code will break */
...
@@ -1307,11 +1401,13 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
...
@@ -1307,11 +1401,13 @@ static struct dma_async_tx_descriptor *pl08x_prep_dma_memcpy(
txd
->
cctl
|=
pl08x_select_bus
(
pl08x
->
mem_buses
,
txd
->
cctl
|=
pl08x_select_bus
(
pl08x
->
mem_buses
,
pl08x
->
mem_buses
);
pl08x
->
mem_buses
);
ret
=
pl08x_prep_channel_resources
(
plchan
,
txd
);
ret
=
pl08x_fill_llis_for_desc
(
plchan
->
host
,
txd
);
if
(
ret
)
if
(
!
ret
)
{
pl08x_free_txd
(
pl08x
,
txd
);
return
NULL
;
return
NULL
;
}
return
&
txd
->
tx
;
return
vchan_tx_prep
(
&
plchan
->
vc
,
&
txd
->
vd
,
flags
)
;
}
}
static
struct
dma_async_tx_descriptor
*
pl08x_prep_slave_sg
(
static
struct
dma_async_tx_descriptor
*
pl08x_prep_slave_sg
(
...
@@ -1324,36 +1420,40 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
...
@@ -1324,36 +1420,40 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
struct
pl08x_txd
*
txd
;
struct
pl08x_txd
*
txd
;
struct
pl08x_sg
*
dsg
;
struct
pl08x_sg
*
dsg
;
struct
scatterlist
*
sg
;
struct
scatterlist
*
sg
;
enum
dma_slave_buswidth
addr_width
;
dma_addr_t
slave_addr
;
dma_addr_t
slave_addr
;
int
ret
,
tmp
;
int
ret
,
tmp
;
u8
src_buses
,
dst_buses
;
u32
maxburst
,
cctl
;
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"%s prepare transaction of %d bytes from %s
\n
"
,
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"%s prepare transaction of %d bytes from %s
\n
"
,
__func__
,
sg_dma_len
(
sgl
),
plchan
->
name
);
__func__
,
sg_dma_len
(
sgl
),
plchan
->
name
);
txd
=
pl08x_get_txd
(
plchan
,
flags
);
txd
=
pl08x_get_txd
(
plchan
);
if
(
!
txd
)
{
if
(
!
txd
)
{
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s no txd
\n
"
,
__func__
);
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s no txd
\n
"
,
__func__
);
return
NULL
;
return
NULL
;
}
}
if
(
direction
!=
plchan
->
runtime_direction
)
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s DMA setup does not match "
"the direction configured for the PrimeCell
\n
"
,
__func__
);
/*
/*
* Set up addresses, the PrimeCell configured address
* Set up addresses, the PrimeCell configured address
* will take precedence since this may configure the
* will take precedence since this may configure the
* channel target address dynamically at runtime.
* channel target address dynamically at runtime.
*/
*/
txd
->
direction
=
direction
;
if
(
direction
==
DMA_MEM_TO_DEV
)
{
if
(
direction
==
DMA_MEM_TO_DEV
)
{
txd
->
cctl
=
plchan
->
dst_cctl
;
cctl
=
PL080_CONTROL_SRC_INCR
;
slave_addr
=
plchan
->
dst_addr
;
slave_addr
=
plchan
->
cfg
.
dst_addr
;
addr_width
=
plchan
->
cfg
.
dst_addr_width
;
maxburst
=
plchan
->
cfg
.
dst_maxburst
;
src_buses
=
pl08x
->
mem_buses
;
dst_buses
=
plchan
->
cd
->
periph_buses
;
}
else
if
(
direction
==
DMA_DEV_TO_MEM
)
{
}
else
if
(
direction
==
DMA_DEV_TO_MEM
)
{
txd
->
cctl
=
plchan
->
src_cctl
;
cctl
=
PL080_CONTROL_DST_INCR
;
slave_addr
=
plchan
->
src_addr
;
slave_addr
=
plchan
->
cfg
.
src_addr
;
addr_width
=
plchan
->
cfg
.
src_addr_width
;
maxburst
=
plchan
->
cfg
.
src_maxburst
;
src_buses
=
plchan
->
cd
->
periph_buses
;
dst_buses
=
pl08x
->
mem_buses
;
}
else
{
}
else
{
pl08x_free_txd
(
pl08x
,
txd
);
pl08x_free_txd
(
pl08x
,
txd
);
dev_err
(
&
pl08x
->
adev
->
dev
,
dev_err
(
&
pl08x
->
adev
->
dev
,
...
@@ -1361,7 +1461,17 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
...
@@ -1361,7 +1461,17 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
return
NULL
;
return
NULL
;
}
}
if
(
plchan
->
device_fc
)
cctl
|=
pl08x_get_cctl
(
plchan
,
addr_width
,
maxburst
);
if
(
cctl
==
~
0
)
{
pl08x_free_txd
(
pl08x
,
txd
);
dev_err
(
&
pl08x
->
adev
->
dev
,
"DMA slave configuration botched?
\n
"
);
return
NULL
;
}
txd
->
cctl
=
cctl
|
pl08x_select_bus
(
src_buses
,
dst_buses
);
if
(
plchan
->
cfg
.
device_fc
)
tmp
=
(
direction
==
DMA_MEM_TO_DEV
)
?
PL080_FLOW_MEM2PER_PER
:
tmp
=
(
direction
==
DMA_MEM_TO_DEV
)
?
PL080_FLOW_MEM2PER_PER
:
PL080_FLOW_PER2MEM_PER
;
PL080_FLOW_PER2MEM_PER
;
else
else
...
@@ -1370,9 +1480,28 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
...
@@ -1370,9 +1480,28 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
txd
->
ccfg
|=
tmp
<<
PL080_CONFIG_FLOW_CONTROL_SHIFT
;
txd
->
ccfg
|=
tmp
<<
PL080_CONFIG_FLOW_CONTROL_SHIFT
;
ret
=
pl08x_request_mux
(
plchan
);
if
(
ret
<
0
)
{
pl08x_free_txd
(
pl08x
,
txd
);
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"unable to mux for transfer on %s due to platform restrictions
\n
"
,
plchan
->
name
);
return
NULL
;
}
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"allocated DMA request signal %d for xfer on %s
\n
"
,
plchan
->
signal
,
plchan
->
name
);
/* Assign the flow control signal to this channel */
if
(
direction
==
DMA_MEM_TO_DEV
)
txd
->
ccfg
|=
plchan
->
signal
<<
PL080_CONFIG_DST_SEL_SHIFT
;
else
txd
->
ccfg
|=
plchan
->
signal
<<
PL080_CONFIG_SRC_SEL_SHIFT
;
for_each_sg
(
sgl
,
sg
,
sg_len
,
tmp
)
{
for_each_sg
(
sgl
,
sg
,
sg_len
,
tmp
)
{
dsg
=
kzalloc
(
sizeof
(
struct
pl08x_sg
),
GFP_NOWAIT
);
dsg
=
kzalloc
(
sizeof
(
struct
pl08x_sg
),
GFP_NOWAIT
);
if
(
!
dsg
)
{
if
(
!
dsg
)
{
pl08x_release_mux
(
plchan
);
pl08x_free_txd
(
pl08x
,
txd
);
pl08x_free_txd
(
pl08x
,
txd
);
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s no mem for pl080 sg
\n
"
,
dev_err
(
&
pl08x
->
adev
->
dev
,
"%s no mem for pl080 sg
\n
"
,
__func__
);
__func__
);
...
@@ -1390,11 +1519,14 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
...
@@ -1390,11 +1519,14 @@ static struct dma_async_tx_descriptor *pl08x_prep_slave_sg(
}
}
}
}
ret
=
pl08x_prep_channel_resources
(
plchan
,
txd
);
ret
=
pl08x_fill_llis_for_desc
(
plchan
->
host
,
txd
);
if
(
ret
)
if
(
!
ret
)
{
pl08x_release_mux
(
plchan
);
pl08x_free_txd
(
pl08x
,
txd
);
return
NULL
;
return
NULL
;
}
return
&
txd
->
tx
;
return
vchan_tx_prep
(
&
plchan
->
vc
,
&
txd
->
vd
,
flags
)
;
}
}
static
int
pl08x_control
(
struct
dma_chan
*
chan
,
enum
dma_ctrl_cmd
cmd
,
static
int
pl08x_control
(
struct
dma_chan
*
chan
,
enum
dma_ctrl_cmd
cmd
,
...
@@ -1415,9 +1547,9 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
...
@@ -1415,9 +1547,9 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
* Anything succeeds on channels with no physical allocation and
* Anything succeeds on channels with no physical allocation and
* no queued transfers.
* no queued transfers.
*/
*/
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
spin_lock_irqsave
(
&
plchan
->
vc
.
lock
,
flags
);
if
(
!
plchan
->
phychan
&&
!
plchan
->
at
)
{
if
(
!
plchan
->
phychan
&&
!
plchan
->
at
)
{
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
spin_unlock_irqrestore
(
&
plchan
->
vc
.
lock
,
flags
);
return
0
;
return
0
;
}
}
...
@@ -1426,18 +1558,15 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
...
@@ -1426,18 +1558,15 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
plchan
->
state
=
PL08X_CHAN_IDLE
;
plchan
->
state
=
PL08X_CHAN_IDLE
;
if
(
plchan
->
phychan
)
{
if
(
plchan
->
phychan
)
{
pl08x_terminate_phy_chan
(
pl08x
,
plchan
->
phychan
);
/*
/*
* Mark physical channel as free and free any slave
* Mark physical channel as free and free any slave
* signal
* signal
*/
*/
release_phy_channel
(
plchan
);
pl08x_phy_free
(
plchan
);
plchan
->
phychan_hold
=
0
;
}
}
/* Dequeue jobs and free LLIs */
/* Dequeue jobs and free LLIs */
if
(
plchan
->
at
)
{
if
(
plchan
->
at
)
{
pl08x_
free_txd
(
pl08x
,
plchan
->
at
);
pl08x_
desc_free
(
&
plchan
->
at
->
vd
);
plchan
->
at
=
NULL
;
plchan
->
at
=
NULL
;
}
}
/* Dequeue jobs not yet fired as well */
/* Dequeue jobs not yet fired as well */
...
@@ -1457,7 +1586,7 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
...
@@ -1457,7 +1586,7 @@ static int pl08x_control(struct dma_chan *chan, enum dma_ctrl_cmd cmd,
break
;
break
;
}
}
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
spin_unlock_irqrestore
(
&
plchan
->
vc
.
lock
,
flags
);
return
ret
;
return
ret
;
}
}
...
@@ -1494,123 +1623,6 @@ static void pl08x_ensure_on(struct pl08x_driver_data *pl08x)
...
@@ -1494,123 +1623,6 @@ static void pl08x_ensure_on(struct pl08x_driver_data *pl08x)
writel
(
PL080_CONFIG_ENABLE
,
pl08x
->
base
+
PL080_CONFIG
);
writel
(
PL080_CONFIG_ENABLE
,
pl08x
->
base
+
PL080_CONFIG
);
}
}
static
void
pl08x_unmap_buffers
(
struct
pl08x_txd
*
txd
)
{
struct
device
*
dev
=
txd
->
tx
.
chan
->
device
->
dev
;
struct
pl08x_sg
*
dsg
;
if
(
!
(
txd
->
tx
.
flags
&
DMA_COMPL_SKIP_SRC_UNMAP
))
{
if
(
txd
->
tx
.
flags
&
DMA_COMPL_SRC_UNMAP_SINGLE
)
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_single
(
dev
,
dsg
->
src_addr
,
dsg
->
len
,
DMA_TO_DEVICE
);
else
{
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_page
(
dev
,
dsg
->
src_addr
,
dsg
->
len
,
DMA_TO_DEVICE
);
}
}
if
(
!
(
txd
->
tx
.
flags
&
DMA_COMPL_SKIP_DEST_UNMAP
))
{
if
(
txd
->
tx
.
flags
&
DMA_COMPL_DEST_UNMAP_SINGLE
)
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_single
(
dev
,
dsg
->
dst_addr
,
dsg
->
len
,
DMA_FROM_DEVICE
);
else
list_for_each_entry
(
dsg
,
&
txd
->
dsg_list
,
node
)
dma_unmap_page
(
dev
,
dsg
->
dst_addr
,
dsg
->
len
,
DMA_FROM_DEVICE
);
}
}
static
void
pl08x_tasklet
(
unsigned
long
data
)
{
struct
pl08x_dma_chan
*
plchan
=
(
struct
pl08x_dma_chan
*
)
data
;
struct
pl08x_driver_data
*
pl08x
=
plchan
->
host
;
struct
pl08x_txd
*
txd
;
unsigned
long
flags
;
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
txd
=
plchan
->
at
;
plchan
->
at
=
NULL
;
if
(
txd
)
{
/* Update last completed */
dma_cookie_complete
(
&
txd
->
tx
);
}
/* If a new descriptor is queued, set it up plchan->at is NULL here */
if
(
!
list_empty
(
&
plchan
->
pend_list
))
{
struct
pl08x_txd
*
next
;
next
=
list_first_entry
(
&
plchan
->
pend_list
,
struct
pl08x_txd
,
node
);
list_del
(
&
next
->
node
);
pl08x_start_txd
(
plchan
,
next
);
}
else
if
(
plchan
->
phychan_hold
)
{
/*
* This channel is still in use - we have a new txd being
* prepared and will soon be queued. Don't give up the
* physical channel.
*/
}
else
{
struct
pl08x_dma_chan
*
waiting
=
NULL
;
/*
* No more jobs, so free up the physical channel
* Free any allocated signal on slave transfers too
*/
release_phy_channel
(
plchan
);
plchan
->
state
=
PL08X_CHAN_IDLE
;
/*
* And NOW before anyone else can grab that free:d up
* physical channel, see if there is some memcpy pending
* that seriously needs to start because of being stacked
* up while we were choking the physical channels with data.
*/
list_for_each_entry
(
waiting
,
&
pl08x
->
memcpy
.
channels
,
chan
.
device_node
)
{
if
(
waiting
->
state
==
PL08X_CHAN_WAITING
&&
waiting
->
waiting
!=
NULL
)
{
int
ret
;
/* This should REALLY not fail now */
ret
=
prep_phy_channel
(
waiting
,
waiting
->
waiting
);
BUG_ON
(
ret
);
waiting
->
phychan_hold
--
;
waiting
->
state
=
PL08X_CHAN_RUNNING
;
waiting
->
waiting
=
NULL
;
pl08x_issue_pending
(
&
waiting
->
chan
);
break
;
}
}
}
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
if
(
txd
)
{
dma_async_tx_callback
callback
=
txd
->
tx
.
callback
;
void
*
callback_param
=
txd
->
tx
.
callback_param
;
/* Don't try to unmap buffers on slave channels */
if
(
!
plchan
->
slave
)
pl08x_unmap_buffers
(
txd
);
/* Free the descriptor */
spin_lock_irqsave
(
&
plchan
->
lock
,
flags
);
pl08x_free_txd
(
pl08x
,
txd
);
spin_unlock_irqrestore
(
&
plchan
->
lock
,
flags
);
/* Callback to signal completion */
if
(
callback
)
callback
(
callback_param
);
}
}
static
irqreturn_t
pl08x_irq
(
int
irq
,
void
*
dev
)
static
irqreturn_t
pl08x_irq
(
int
irq
,
void
*
dev
)
{
{
struct
pl08x_driver_data
*
pl08x
=
dev
;
struct
pl08x_driver_data
*
pl08x
=
dev
;
...
@@ -1635,6 +1647,7 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
...
@@ -1635,6 +1647,7 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
/* Locate physical channel */
/* Locate physical channel */
struct
pl08x_phy_chan
*
phychan
=
&
pl08x
->
phy_chans
[
i
];
struct
pl08x_phy_chan
*
phychan
=
&
pl08x
->
phy_chans
[
i
];
struct
pl08x_dma_chan
*
plchan
=
phychan
->
serving
;
struct
pl08x_dma_chan
*
plchan
=
phychan
->
serving
;
struct
pl08x_txd
*
tx
;
if
(
!
plchan
)
{
if
(
!
plchan
)
{
dev_err
(
&
pl08x
->
adev
->
dev
,
dev_err
(
&
pl08x
->
adev
->
dev
,
...
@@ -1643,8 +1656,29 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
...
@@ -1643,8 +1656,29 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
continue
;
continue
;
}
}
/* Schedule tasklet on this channel */
spin_lock
(
&
plchan
->
vc
.
lock
);
tasklet_schedule
(
&
plchan
->
tasklet
);
tx
=
plchan
->
at
;
if
(
tx
)
{
plchan
->
at
=
NULL
;
/*
* This descriptor is done, release its mux
* reservation.
*/
pl08x_release_mux
(
plchan
);
tx
->
done
=
true
;
vchan_cookie_complete
(
&
tx
->
vd
);
/*
* And start the next descriptor (if any),
* otherwise free this channel.
*/
if
(
vchan_next_desc
(
&
plchan
->
vc
))
pl08x_start_next_txd
(
plchan
);
else
pl08x_phy_free
(
plchan
);
}
spin_unlock
(
&
plchan
->
vc
.
lock
);
mask
|=
(
1
<<
i
);
mask
|=
(
1
<<
i
);
}
}
}
}
...
@@ -1654,16 +1688,10 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
...
@@ -1654,16 +1688,10 @@ static irqreturn_t pl08x_irq(int irq, void *dev)
static
void
pl08x_dma_slave_init
(
struct
pl08x_dma_chan
*
chan
)
static
void
pl08x_dma_slave_init
(
struct
pl08x_dma_chan
*
chan
)
{
{
u32
cctl
=
pl08x_cctl
(
chan
->
cd
->
cctl
);
chan
->
slave
=
true
;
chan
->
slave
=
true
;
chan
->
name
=
chan
->
cd
->
bus_id
;
chan
->
name
=
chan
->
cd
->
bus_id
;
chan
->
src_addr
=
chan
->
cd
->
addr
;
chan
->
cfg
.
src_addr
=
chan
->
cd
->
addr
;
chan
->
dst_addr
=
chan
->
cd
->
addr
;
chan
->
cfg
.
dst_addr
=
chan
->
cd
->
addr
;
chan
->
src_cctl
=
cctl
|
PL080_CONTROL_DST_INCR
|
pl08x_select_bus
(
chan
->
cd
->
periph_buses
,
chan
->
host
->
mem_buses
);
chan
->
dst_cctl
=
cctl
|
PL080_CONTROL_SRC_INCR
|
pl08x_select_bus
(
chan
->
host
->
mem_buses
,
chan
->
cd
->
periph_buses
);
}
}
/*
/*
...
@@ -1693,6 +1721,7 @@ static int pl08x_dma_init_virtual_channels(struct pl08x_driver_data *pl08x,
...
@@ -1693,6 +1721,7 @@ static int pl08x_dma_init_virtual_channels(struct pl08x_driver_data *pl08x,
chan
->
host
=
pl08x
;
chan
->
host
=
pl08x
;
chan
->
state
=
PL08X_CHAN_IDLE
;
chan
->
state
=
PL08X_CHAN_IDLE
;
chan
->
signal
=
-
1
;
if
(
slave
)
{
if
(
slave
)
{
chan
->
cd
=
&
pl08x
->
pd
->
slave_channels
[
i
];
chan
->
cd
=
&
pl08x
->
pd
->
slave_channels
[
i
];
...
@@ -1705,26 +1734,12 @@ static int pl08x_dma_init_virtual_channels(struct pl08x_driver_data *pl08x,
...
@@ -1705,26 +1734,12 @@ static int pl08x_dma_init_virtual_channels(struct pl08x_driver_data *pl08x,
return
-
ENOMEM
;
return
-
ENOMEM
;
}
}
}
}
if
(
chan
->
cd
->
circular_buffer
)
{
dev_err
(
&
pl08x
->
adev
->
dev
,
"channel %s: circular buffers not supported
\n
"
,
chan
->
name
);
kfree
(
chan
);
continue
;
}
dev_dbg
(
&
pl08x
->
adev
->
dev
,
dev_dbg
(
&
pl08x
->
adev
->
dev
,
"initialize virtual channel
\"
%s
\"\n
"
,
"initialize virtual channel
\"
%s
\"\n
"
,
chan
->
name
);
chan
->
name
);
chan
->
chan
.
device
=
dmadev
;
chan
->
vc
.
desc_free
=
pl08x_desc_free
;
dma_cookie_init
(
&
chan
->
chan
);
vchan_init
(
&
chan
->
vc
,
dmadev
);
spin_lock_init
(
&
chan
->
lock
);
INIT_LIST_HEAD
(
&
chan
->
pend_list
);
tasklet_init
(
&
chan
->
tasklet
,
pl08x_tasklet
,
(
unsigned
long
)
chan
);
list_add_tail
(
&
chan
->
chan
.
device_node
,
&
dmadev
->
channels
);
}
}
dev_info
(
&
pl08x
->
adev
->
dev
,
"initialized %d virtual %s channels
\n
"
,
dev_info
(
&
pl08x
->
adev
->
dev
,
"initialized %d virtual %s channels
\n
"
,
i
,
slave
?
"slave"
:
"memcpy"
);
i
,
slave
?
"slave"
:
"memcpy"
);
...
@@ -1737,8 +1752,8 @@ static void pl08x_free_virtual_channels(struct dma_device *dmadev)
...
@@ -1737,8 +1752,8 @@ static void pl08x_free_virtual_channels(struct dma_device *dmadev)
struct
pl08x_dma_chan
*
next
;
struct
pl08x_dma_chan
*
next
;
list_for_each_entry_safe
(
chan
,
list_for_each_entry_safe
(
chan
,
next
,
&
dmadev
->
channels
,
chan
.
device_node
)
{
next
,
&
dmadev
->
channels
,
vc
.
chan
.
device_node
)
{
list_del
(
&
chan
->
chan
.
device_node
);
list_del
(
&
chan
->
vc
.
chan
.
device_node
);
kfree
(
chan
);
kfree
(
chan
);
}
}
}
}
...
@@ -1791,7 +1806,7 @@ static int pl08x_debugfs_show(struct seq_file *s, void *data)
...
@@ -1791,7 +1806,7 @@ static int pl08x_debugfs_show(struct seq_file *s, void *data)
seq_printf
(
s
,
"
\n
PL08x virtual memcpy channels:
\n
"
);
seq_printf
(
s
,
"
\n
PL08x virtual memcpy channels:
\n
"
);
seq_printf
(
s
,
"CHANNEL:
\t
STATE:
\n
"
);
seq_printf
(
s
,
"CHANNEL:
\t
STATE:
\n
"
);
seq_printf
(
s
,
"--------
\t
------
\n
"
);
seq_printf
(
s
,
"--------
\t
------
\n
"
);
list_for_each_entry
(
chan
,
&
pl08x
->
memcpy
.
channels
,
chan
.
device_node
)
{
list_for_each_entry
(
chan
,
&
pl08x
->
memcpy
.
channels
,
vc
.
chan
.
device_node
)
{
seq_printf
(
s
,
"%s
\t\t
%s
\n
"
,
chan
->
name
,
seq_printf
(
s
,
"%s
\t\t
%s
\n
"
,
chan
->
name
,
pl08x_state_str
(
chan
->
state
));
pl08x_state_str
(
chan
->
state
));
}
}
...
@@ -1799,7 +1814,7 @@ static int pl08x_debugfs_show(struct seq_file *s, void *data)
...
@@ -1799,7 +1814,7 @@ static int pl08x_debugfs_show(struct seq_file *s, void *data)
seq_printf
(
s
,
"
\n
PL08x virtual slave channels:
\n
"
);
seq_printf
(
s
,
"
\n
PL08x virtual slave channels:
\n
"
);
seq_printf
(
s
,
"CHANNEL:
\t
STATE:
\n
"
);
seq_printf
(
s
,
"CHANNEL:
\t
STATE:
\n
"
);
seq_printf
(
s
,
"--------
\t
------
\n
"
);
seq_printf
(
s
,
"--------
\t
------
\n
"
);
list_for_each_entry
(
chan
,
&
pl08x
->
slave
.
channels
,
chan
.
device_node
)
{
list_for_each_entry
(
chan
,
&
pl08x
->
slave
.
channels
,
vc
.
chan
.
device_node
)
{
seq_printf
(
s
,
"%s
\t\t
%s
\n
"
,
chan
->
name
,
seq_printf
(
s
,
"%s
\t\t
%s
\n
"
,
chan
->
name
,
pl08x_state_str
(
chan
->
state
));
pl08x_state_str
(
chan
->
state
));
}
}
...
@@ -1851,9 +1866,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
...
@@ -1851,9 +1866,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
goto
out_no_pl08x
;
goto
out_no_pl08x
;
}
}
pm_runtime_set_active
(
&
adev
->
dev
);
pm_runtime_enable
(
&
adev
->
dev
);
/* Initialize memcpy engine */
/* Initialize memcpy engine */
dma_cap_set
(
DMA_MEMCPY
,
pl08x
->
memcpy
.
cap_mask
);
dma_cap_set
(
DMA_MEMCPY
,
pl08x
->
memcpy
.
cap_mask
);
pl08x
->
memcpy
.
dev
=
&
adev
->
dev
;
pl08x
->
memcpy
.
dev
=
&
adev
->
dev
;
...
@@ -1903,8 +1915,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
...
@@ -1903,8 +1915,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
goto
out_no_lli_pool
;
goto
out_no_lli_pool
;
}
}
spin_lock_init
(
&
pl08x
->
lock
);
pl08x
->
base
=
ioremap
(
adev
->
res
.
start
,
resource_size
(
&
adev
->
res
));
pl08x
->
base
=
ioremap
(
adev
->
res
.
start
,
resource_size
(
&
adev
->
res
));
if
(
!
pl08x
->
base
)
{
if
(
!
pl08x
->
base
)
{
ret
=
-
ENOMEM
;
ret
=
-
ENOMEM
;
...
@@ -1942,7 +1952,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
...
@@ -1942,7 +1952,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
ch
->
id
=
i
;
ch
->
id
=
i
;
ch
->
base
=
pl08x
->
base
+
PL080_Cx_BASE
(
i
);
ch
->
base
=
pl08x
->
base
+
PL080_Cx_BASE
(
i
);
spin_lock_init
(
&
ch
->
lock
);
spin_lock_init
(
&
ch
->
lock
);
ch
->
signal
=
-
1
;
/*
/*
* Nomadik variants can have channels that are locked
* Nomadik variants can have channels that are locked
...
@@ -2007,7 +2016,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
...
@@ -2007,7 +2016,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
amba_part
(
adev
),
amba_rev
(
adev
),
amba_part
(
adev
),
amba_rev
(
adev
),
(
unsigned
long
long
)
adev
->
res
.
start
,
adev
->
irq
[
0
]);
(
unsigned
long
long
)
adev
->
res
.
start
,
adev
->
irq
[
0
]);
pm_runtime_put
(
&
adev
->
dev
);
return
0
;
return
0
;
out_no_slave_reg:
out_no_slave_reg:
...
@@ -2026,9 +2034,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
...
@@ -2026,9 +2034,6 @@ static int pl08x_probe(struct amba_device *adev, const struct amba_id *id)
dma_pool_destroy
(
pl08x
->
pool
);
dma_pool_destroy
(
pl08x
->
pool
);
out_no_lli_pool:
out_no_lli_pool:
out_no_platdata:
out_no_platdata:
pm_runtime_put
(
&
adev
->
dev
);
pm_runtime_disable
(
&
adev
->
dev
);
kfree
(
pl08x
);
kfree
(
pl08x
);
out_no_pl08x:
out_no_pl08x:
amba_release_regions
(
adev
);
amba_release_regions
(
adev
);
...
...
drivers/dma/sa11x0-dma.c
View file @
0e52d987
...
@@ -78,6 +78,8 @@ struct sa11x0_dma_desc {
...
@@ -78,6 +78,8 @@ struct sa11x0_dma_desc {
u32
ddar
;
u32
ddar
;
size_t
size
;
size_t
size
;
unsigned
period
;
bool
cyclic
;
unsigned
sglen
;
unsigned
sglen
;
struct
sa11x0_dma_sg
sg
[
0
];
struct
sa11x0_dma_sg
sg
[
0
];
...
@@ -178,19 +180,24 @@ static void noinline sa11x0_dma_start_sg(struct sa11x0_dma_phy *p,
...
@@ -178,19 +180,24 @@ static void noinline sa11x0_dma_start_sg(struct sa11x0_dma_phy *p,
return
;
return
;
if
(
p
->
sg_load
==
txd
->
sglen
)
{
if
(
p
->
sg_load
==
txd
->
sglen
)
{
struct
sa11x0_dma_desc
*
txn
=
sa11x0_dma_next_desc
(
c
);
if
(
!
txd
->
cyclic
)
{
struct
sa11x0_dma_desc
*
txn
=
sa11x0_dma_next_desc
(
c
);
/*
/*
* We have reached the end of the current descriptor.
* We have reached the end of the current descriptor.
* Peek at the next descriptor, and if compatible with
* Peek at the next descriptor, and if compatible with
* the current, start processing it.
* the current, start processing it.
*/
*/
if
(
txn
&&
txn
->
ddar
==
txd
->
ddar
)
{
if
(
txn
&&
txn
->
ddar
==
txd
->
ddar
)
{
txd
=
txn
;
txd
=
txn
;
sa11x0_dma_start_desc
(
p
,
txn
);
sa11x0_dma_start_desc
(
p
,
txn
);
}
else
{
p
->
txd_load
=
NULL
;
return
;
}
}
else
{
}
else
{
p
->
txd_load
=
NULL
;
/* Cyclic: reset back to beginning */
return
;
p
->
sg_load
=
0
;
}
}
}
}
...
@@ -224,13 +231,21 @@ static void noinline sa11x0_dma_complete(struct sa11x0_dma_phy *p,
...
@@ -224,13 +231,21 @@ static void noinline sa11x0_dma_complete(struct sa11x0_dma_phy *p,
struct
sa11x0_dma_desc
*
txd
=
p
->
txd_done
;
struct
sa11x0_dma_desc
*
txd
=
p
->
txd_done
;
if
(
++
p
->
sg_done
==
txd
->
sglen
)
{
if
(
++
p
->
sg_done
==
txd
->
sglen
)
{
vchan_cookie_complete
(
&
txd
->
vd
);
if
(
!
txd
->
cyclic
)
{
vchan_cookie_complete
(
&
txd
->
vd
);
p
->
sg_done
=
0
;
p
->
sg_done
=
0
;
p
->
txd_done
=
p
->
txd_load
;
p
->
txd_done
=
p
->
txd_load
;
if
(
!
p
->
txd_done
)
if
(
!
p
->
txd_done
)
tasklet_schedule
(
&
p
->
dev
->
task
);
tasklet_schedule
(
&
p
->
dev
->
task
);
}
else
{
if
((
p
->
sg_done
%
txd
->
period
)
==
0
)
vchan_cyclic_callback
(
&
txd
->
vd
);
/* Cyclic: reset back to beginning */
p
->
sg_done
=
0
;
}
}
}
sa11x0_dma_start_sg
(
p
,
c
);
sa11x0_dma_start_sg
(
p
,
c
);
...
@@ -416,27 +431,47 @@ static enum dma_status sa11x0_dma_tx_status(struct dma_chan *chan,
...
@@ -416,27 +431,47 @@ static enum dma_status sa11x0_dma_tx_status(struct dma_chan *chan,
struct
sa11x0_dma_chan
*
c
=
to_sa11x0_dma_chan
(
chan
);
struct
sa11x0_dma_chan
*
c
=
to_sa11x0_dma_chan
(
chan
);
struct
sa11x0_dma_dev
*
d
=
to_sa11x0_dma
(
chan
->
device
);
struct
sa11x0_dma_dev
*
d
=
to_sa11x0_dma
(
chan
->
device
);
struct
sa11x0_dma_phy
*
p
;
struct
sa11x0_dma_phy
*
p
;
struct
sa11x0_dma_desc
*
tx
d
;
struct
virt_dma_desc
*
v
d
;
unsigned
long
flags
;
unsigned
long
flags
;
enum
dma_status
ret
;
enum
dma_status
ret
;
size_t
bytes
=
0
;
ret
=
dma_cookie_status
(
&
c
->
vc
.
chan
,
cookie
,
state
);
ret
=
dma_cookie_status
(
&
c
->
vc
.
chan
,
cookie
,
state
);
if
(
ret
==
DMA_SUCCESS
)
if
(
ret
==
DMA_SUCCESS
)
return
ret
;
return
ret
;
if
(
!
state
)
return
c
->
status
;
spin_lock_irqsave
(
&
c
->
vc
.
lock
,
flags
);
spin_lock_irqsave
(
&
c
->
vc
.
lock
,
flags
);
p
=
c
->
phy
;
p
=
c
->
phy
;
ret
=
c
->
status
;
if
(
p
)
{
dma_addr_t
addr
=
sa11x0_dma_pos
(
p
);
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: addr:%x
\n
"
,
addr
);
/*
* If the cookie is on our issue queue, then the residue is
* its total size.
*/
vd
=
vchan_find_desc
(
&
c
->
vc
,
cookie
);
if
(
vd
)
{
state
->
residue
=
container_of
(
vd
,
struct
sa11x0_dma_desc
,
vd
)
->
size
;
}
else
if
(
!
p
)
{
state
->
residue
=
0
;
}
else
{
struct
sa11x0_dma_desc
*
txd
;
size_t
bytes
=
0
;
txd
=
p
->
txd_done
;
if
(
p
->
txd_done
&&
p
->
txd_done
->
vd
.
tx
.
cookie
==
cookie
)
txd
=
p
->
txd_done
;
else
if
(
p
->
txd_load
&&
p
->
txd_load
->
vd
.
tx
.
cookie
==
cookie
)
txd
=
p
->
txd_load
;
else
txd
=
NULL
;
ret
=
c
->
status
;
if
(
txd
)
{
if
(
txd
)
{
dma_addr_t
addr
=
sa11x0_dma_pos
(
p
);
unsigned
i
;
unsigned
i
;
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: addr:%x
\n
"
,
addr
);
for
(
i
=
0
;
i
<
txd
->
sglen
;
i
++
)
{
for
(
i
=
0
;
i
<
txd
->
sglen
;
i
++
)
{
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: [%u] %x+%x
\n
"
,
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: [%u] %x+%x
\n
"
,
i
,
txd
->
sg
[
i
].
addr
,
txd
->
sg
[
i
].
len
);
i
,
txd
->
sg
[
i
].
addr
,
txd
->
sg
[
i
].
len
);
...
@@ -459,18 +494,11 @@ static enum dma_status sa11x0_dma_tx_status(struct dma_chan *chan,
...
@@ -459,18 +494,11 @@ static enum dma_status sa11x0_dma_tx_status(struct dma_chan *chan,
bytes
+=
txd
->
sg
[
i
].
len
;
bytes
+=
txd
->
sg
[
i
].
len
;
}
}
}
}
if
(
txd
!=
p
->
txd_load
&&
p
->
txd_load
)
state
->
residue
=
bytes
;
bytes
+=
p
->
txd_load
->
size
;
}
list_for_each_entry
(
txd
,
&
c
->
vc
.
desc_issued
,
vd
.
node
)
{
bytes
+=
txd
->
size
;
}
}
spin_unlock_irqrestore
(
&
c
->
vc
.
lock
,
flags
);
spin_unlock_irqrestore
(
&
c
->
vc
.
lock
,
flags
);
if
(
state
)
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: bytes 0x%zx
\n
"
,
state
->
residue
);
state
->
residue
=
bytes
;
dev_vdbg
(
d
->
slave
.
dev
,
"tx_status: bytes 0x%zx
\n
"
,
bytes
);
return
ret
;
return
ret
;
}
}
...
@@ -584,6 +612,65 @@ static struct dma_async_tx_descriptor *sa11x0_dma_prep_slave_sg(
...
@@ -584,6 +612,65 @@ static struct dma_async_tx_descriptor *sa11x0_dma_prep_slave_sg(
return
vchan_tx_prep
(
&
c
->
vc
,
&
txd
->
vd
,
flags
);
return
vchan_tx_prep
(
&
c
->
vc
,
&
txd
->
vd
,
flags
);
}
}
static
struct
dma_async_tx_descriptor
*
sa11x0_dma_prep_dma_cyclic
(
struct
dma_chan
*
chan
,
dma_addr_t
addr
,
size_t
size
,
size_t
period
,
enum
dma_transfer_direction
dir
,
void
*
context
)
{
struct
sa11x0_dma_chan
*
c
=
to_sa11x0_dma_chan
(
chan
);
struct
sa11x0_dma_desc
*
txd
;
unsigned
i
,
j
,
k
,
sglen
,
sgperiod
;
/* SA11x0 channels can only operate in their native direction */
if
(
dir
!=
(
c
->
ddar
&
DDAR_RW
?
DMA_DEV_TO_MEM
:
DMA_MEM_TO_DEV
))
{
dev_err
(
chan
->
device
->
dev
,
"vchan %p: bad DMA direction: DDAR:%08x dir:%u
\n
"
,
&
c
->
vc
,
c
->
ddar
,
dir
);
return
NULL
;
}
sgperiod
=
DIV_ROUND_UP
(
period
,
DMA_MAX_SIZE
&
~
DMA_ALIGN
);
sglen
=
size
*
sgperiod
/
period
;
/* Do not allow zero-sized txds */
if
(
sglen
==
0
)
return
NULL
;
txd
=
kzalloc
(
sizeof
(
*
txd
)
+
sglen
*
sizeof
(
txd
->
sg
[
0
]),
GFP_ATOMIC
);
if
(
!
txd
)
{
dev_dbg
(
chan
->
device
->
dev
,
"vchan %p: kzalloc failed
\n
"
,
&
c
->
vc
);
return
NULL
;
}
for
(
i
=
k
=
0
;
i
<
size
/
period
;
i
++
)
{
size_t
tlen
,
len
=
period
;
for
(
j
=
0
;
j
<
sgperiod
;
j
++
,
k
++
)
{
tlen
=
len
;
if
(
tlen
>
DMA_MAX_SIZE
)
{
unsigned
mult
=
DIV_ROUND_UP
(
tlen
,
DMA_MAX_SIZE
&
~
DMA_ALIGN
);
tlen
=
(
tlen
/
mult
)
&
~
DMA_ALIGN
;
}
txd
->
sg
[
k
].
addr
=
addr
;
txd
->
sg
[
k
].
len
=
tlen
;
addr
+=
tlen
;
len
-=
tlen
;
}
WARN_ON
(
len
!=
0
);
}
WARN_ON
(
k
!=
sglen
);
txd
->
ddar
=
c
->
ddar
;
txd
->
size
=
size
;
txd
->
sglen
=
sglen
;
txd
->
cyclic
=
1
;
txd
->
period
=
sgperiod
;
return
vchan_tx_prep
(
&
c
->
vc
,
&
txd
->
vd
,
DMA_PREP_INTERRUPT
|
DMA_CTRL_ACK
);
}
static
int
sa11x0_dma_slave_config
(
struct
sa11x0_dma_chan
*
c
,
struct
dma_slave_config
*
cfg
)
static
int
sa11x0_dma_slave_config
(
struct
sa11x0_dma_chan
*
c
,
struct
dma_slave_config
*
cfg
)
{
{
u32
ddar
=
c
->
ddar
&
((
0xf
<<
4
)
|
DDAR_RW
);
u32
ddar
=
c
->
ddar
&
((
0xf
<<
4
)
|
DDAR_RW
);
...
@@ -854,7 +941,9 @@ static int __devinit sa11x0_dma_probe(struct platform_device *pdev)
...
@@ -854,7 +941,9 @@ static int __devinit sa11x0_dma_probe(struct platform_device *pdev)
}
}
dma_cap_set
(
DMA_SLAVE
,
d
->
slave
.
cap_mask
);
dma_cap_set
(
DMA_SLAVE
,
d
->
slave
.
cap_mask
);
dma_cap_set
(
DMA_CYCLIC
,
d
->
slave
.
cap_mask
);
d
->
slave
.
device_prep_slave_sg
=
sa11x0_dma_prep_slave_sg
;
d
->
slave
.
device_prep_slave_sg
=
sa11x0_dma_prep_slave_sg
;
d
->
slave
.
device_prep_dma_cyclic
=
sa11x0_dma_prep_dma_cyclic
;
ret
=
sa11x0_dma_init_dmadev
(
&
d
->
slave
,
&
pdev
->
dev
);
ret
=
sa11x0_dma_init_dmadev
(
&
d
->
slave
,
&
pdev
->
dev
);
if
(
ret
)
{
if
(
ret
)
{
dev_warn
(
d
->
slave
.
dev
,
"failed to register slave async device: %d
\n
"
,
dev_warn
(
d
->
slave
.
dev
,
"failed to register slave async device: %d
\n
"
,
...
...
include/linux/amba/pl08x.h
View file @
0e52d987
...
@@ -21,8 +21,9 @@
...
@@ -21,8 +21,9 @@
#include <linux/dmaengine.h>
#include <linux/dmaengine.h>
#include <linux/interrupt.h>
#include <linux/interrupt.h>
struct
pl08x_lli
;
struct
pl08x_driver_data
;
struct
pl08x_driver_data
;
struct
pl08x_phy_chan
;
struct
pl08x_txd
;
/* Bitmasks for selecting AHB ports for DMA transfers */
/* Bitmasks for selecting AHB ports for DMA transfers */
enum
{
enum
{
...
@@ -46,169 +47,28 @@ enum {
...
@@ -46,169 +47,28 @@ enum {
* devices with static assignments
* devices with static assignments
* @muxval: a number usually used to poke into some mux regiser to
* @muxval: a number usually used to poke into some mux regiser to
* mux in the signal to this channel
* mux in the signal to this channel
* @cctl_opt: default options for the channel control register
* @cctl_memcpy: options for the channel control register for memcpy
* *** not used for slave channels ***
* @addr: source/target address in physical memory for this DMA channel,
* @addr: source/target address in physical memory for this DMA channel,
* can be the address of a FIFO register for burst requests for example.
* can be the address of a FIFO register for burst requests for example.
* This can be left undefined if the PrimeCell API is used for configuring
* This can be left undefined if the PrimeCell API is used for configuring
* this.
* this.
* @circular_buffer: whether the buffer passed in is circular and
* shall simply be looped round round (like a record baby round
* round round round)
* @single: the device connected to this channel will request single DMA
* @single: the device connected to this channel will request single DMA
* transfers, not bursts. (Bursts are default.)
* transfers, not bursts. (Bursts are default.)
* @periph_buses: the device connected to this channel is accessible via
* @periph_buses: the device connected to this channel is accessible via
* these buses (use PL08X_AHB1 | PL08X_AHB2).
* these buses (use PL08X_AHB1 | PL08X_AHB2).
*/
*/
struct
pl08x_channel_data
{
struct
pl08x_channel_data
{
char
*
bus_id
;
c
onst
c
har
*
bus_id
;
int
min_signal
;
int
min_signal
;
int
max_signal
;
int
max_signal
;
u32
muxval
;
u32
muxval
;
u32
cctl
;
u32
cctl
_memcpy
;
dma_addr_t
addr
;
dma_addr_t
addr
;
bool
circular_buffer
;
bool
single
;
bool
single
;
u8
periph_buses
;
u8
periph_buses
;
};
};
/**
* Struct pl08x_bus_data - information of source or destination
* busses for a transfer
* @addr: current address
* @maxwidth: the maximum width of a transfer on this bus
* @buswidth: the width of this bus in bytes: 1, 2 or 4
*/
struct
pl08x_bus_data
{
dma_addr_t
addr
;
u8
maxwidth
;
u8
buswidth
;
};
/**
* struct pl08x_phy_chan - holder for the physical channels
* @id: physical index to this channel
* @lock: a lock to use when altering an instance of this struct
* @signal: the physical signal (aka channel) serving this physical channel
* right now
* @serving: the virtual channel currently being served by this physical
* channel
* @locked: channel unavailable for the system, e.g. dedicated to secure
* world
*/
struct
pl08x_phy_chan
{
unsigned
int
id
;
void
__iomem
*
base
;
spinlock_t
lock
;
int
signal
;
struct
pl08x_dma_chan
*
serving
;
bool
locked
;
};
/**
* struct pl08x_sg - structure containing data per sg
* @src_addr: src address of sg
* @dst_addr: dst address of sg
* @len: transfer len in bytes
* @node: node for txd's dsg_list
*/
struct
pl08x_sg
{
dma_addr_t
src_addr
;
dma_addr_t
dst_addr
;
size_t
len
;
struct
list_head
node
;
};
/**
* struct pl08x_txd - wrapper for struct dma_async_tx_descriptor
* @tx: async tx descriptor
* @node: node for txd list for channels
* @dsg_list: list of children sg's
* @direction: direction of transfer
* @llis_bus: DMA memory address (physical) start for the LLIs
* @llis_va: virtual memory address start for the LLIs
* @cctl: control reg values for current txd
* @ccfg: config reg values for current txd
*/
struct
pl08x_txd
{
struct
dma_async_tx_descriptor
tx
;
struct
list_head
node
;
struct
list_head
dsg_list
;
enum
dma_transfer_direction
direction
;
dma_addr_t
llis_bus
;
struct
pl08x_lli
*
llis_va
;
/* Default cctl value for LLIs */
u32
cctl
;
/*
* Settings to be put into the physical channel when we
* trigger this txd. Other registers are in llis_va[0].
*/
u32
ccfg
;
};
/**
* struct pl08x_dma_chan_state - holds the PL08x specific virtual channel
* states
* @PL08X_CHAN_IDLE: the channel is idle
* @PL08X_CHAN_RUNNING: the channel has allocated a physical transport
* channel and is running a transfer on it
* @PL08X_CHAN_PAUSED: the channel has allocated a physical transport
* channel, but the transfer is currently paused
* @PL08X_CHAN_WAITING: the channel is waiting for a physical transport
* channel to become available (only pertains to memcpy channels)
*/
enum
pl08x_dma_chan_state
{
PL08X_CHAN_IDLE
,
PL08X_CHAN_RUNNING
,
PL08X_CHAN_PAUSED
,
PL08X_CHAN_WAITING
,
};
/**
* struct pl08x_dma_chan - this structure wraps a DMA ENGINE channel
* @chan: wrappped abstract channel
* @phychan: the physical channel utilized by this channel, if there is one
* @phychan_hold: if non-zero, hold on to the physical channel even if we
* have no pending entries
* @tasklet: tasklet scheduled by the IRQ to handle actual work etc
* @name: name of channel
* @cd: channel platform data
* @runtime_addr: address for RX/TX according to the runtime config
* @runtime_direction: current direction of this channel according to
* runtime config
* @pend_list: queued transactions pending on this channel
* @at: active transaction on this channel
* @lock: a lock for this channel data
* @host: a pointer to the host (internal use)
* @state: whether the channel is idle, paused, running etc
* @slave: whether this channel is a device (slave) or for memcpy
* @device_fc: Flow Controller Settings for ccfg register. Only valid for slave
* channels. Fill with 'true' if peripheral should be flow controller. Direction
* will be selected at Runtime.
* @waiting: a TX descriptor on this channel which is waiting for a physical
* channel to become available
*/
struct
pl08x_dma_chan
{
struct
dma_chan
chan
;
struct
pl08x_phy_chan
*
phychan
;
int
phychan_hold
;
struct
tasklet_struct
tasklet
;
char
*
name
;
const
struct
pl08x_channel_data
*
cd
;
dma_addr_t
src_addr
;
dma_addr_t
dst_addr
;
u32
src_cctl
;
u32
dst_cctl
;
enum
dma_transfer_direction
runtime_direction
;
struct
list_head
pend_list
;
struct
pl08x_txd
*
at
;
spinlock_t
lock
;
struct
pl08x_driver_data
*
host
;
enum
pl08x_dma_chan_state
state
;
bool
slave
;
bool
device_fc
;
struct
pl08x_txd
*
waiting
;
};
/**
/**
* struct pl08x_platform_data - the platform configuration for the PL08x
* struct pl08x_platform_data - the platform configuration for the PL08x
* PrimeCells.
* PrimeCells.
...
@@ -229,8 +89,8 @@ struct pl08x_platform_data {
...
@@ -229,8 +89,8 @@ struct pl08x_platform_data {
const
struct
pl08x_channel_data
*
slave_channels
;
const
struct
pl08x_channel_data
*
slave_channels
;
unsigned
int
num_slave_channels
;
unsigned
int
num_slave_channels
;
struct
pl08x_channel_data
memcpy_channel
;
struct
pl08x_channel_data
memcpy_channel
;
int
(
*
get_signal
)(
struct
pl08x_dma_chan
*
);
int
(
*
get_signal
)(
const
struct
pl08x_channel_data
*
);
void
(
*
put_signal
)(
struct
pl08x_dma_chan
*
);
void
(
*
put_signal
)(
const
struct
pl08x_channel_data
*
,
int
);
u8
lli_buses
;
u8
lli_buses
;
u8
mem_buses
;
u8
mem_buses
;
};
};
...
...
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